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- 0:00 - 1:47 The Core Goal: The workshop aims to teach students how to predict test questions and improve test preparation by getting "inside the mind of the teacher" to anticipate what will be on the exam.
- 1:48 - 5:04 The "Why" Method for Active Learning: Inspired by children's relentless questioning, this method encourages students to actively ask "why" about textbook content, transforming passive reading into a purposeful quest for understanding, rather than just "finishing" a chapter.
- 5:05 - 9:09 Turning Headings into Questions: A specific note-taking technique is introduced where students divide a page and convert chapter headings into questions (Who, What, Where, When, Why, How) before reading, turning the reading process into a hunt for answers.
- 11:19 - 13:59 Benefits: Enhanced Concentration & Self-Study Tool: This proactive questioning method improves concentration by providing a clear purpose for reading. Writing answers to these questions on the back of the page creates an effective, personalized study tool akin to flashcards.
- 14:00 - 17:58 Benefits: Test Performance Advantage: Recognizing questions you've formulated during study on an actual exam provides a significant advantage, boosting confidence and confirming effective preparation, which is presented as smart studying, not cheating.
- 17:59 - 21:39 Time Efficiency & Cognitive Development: While the initial process of generating questions may seem time-consuming, it ultimately saves time by deepening comprehension and reducing the need for re-reading. It also trains the brain to think critically and inquisitively beyond academics.
- 21:40 - 30:26 Creating Varied Practice Questions: Students are taught to "act as teachers" and formulate different types of test questions (fill-in-the-blank, true/false, multiple choice) directly from the text, by identifying key details or even intentionally altering facts to create false statements.
- 34:00 - 40:00 Collaborative Study Strategy: A powerful group study method is suggested: students divide chapters, each creates a quiz for their assigned section, then exchange, take, and discuss the quizzes. This acts as a "dress rehearsal" for the real exam, promoting mutual teaching and comprehensive coverage.
- 40:01 - 41:00 Overall Impact: This proactive and engaging study approach, though requiring effort, leads to better retention, increased confidence, and improved performance on tests, making studying more effective and less daunting.
- 0:00 Introduction to Test Preparation: The workshop aims to help students overcome common test preparation issues, moving beyond simply "not studying enough."
- 2:48 Problem 1: Cramming: Many students delay studying until the night before a test, which is ineffective for large amounts of material.
- 3:36 Strategy 1: Finish Reading Three Days Before Test: The goal is to complete all assigned reading and note-taking three days prior to the exam, allowing for dedicated review.
- 6:35 Importance of Review and Rest: The two days before the test should be used for review and getting adequate sleep. A well-rested, energized brain performs optimally.
- 9:28 Strategy 2: Set Up a Good Review Schedule: Create a schedule that allocates study time proportionally to the perceived difficulty of each subject (e.g., more time for math if it's harder).
- 16:53 Incorporate Study Breaks: Short, regular breaks (e.g., 5-10 minutes every 50 minutes) are essential for the brain to process information and prevent burnout.
- 18:01 Problem 2: Lack of Test Knowledge: Students often don't know what to expect on a test, hindering effective preparation.
- 18:49 Strategy 3: Ask Teachers About Test Format: Inquire about the number of questions, the time limit, and where the questions primarily come from (textbook vs. lecture notes).
- 21:10 Tailor Study Based on Question Density: If there are few questions over many pages, focus on big concepts. If many questions over few pages, focus on details.
- 26:00 Adapt to Test Pace (Sprint vs. Jog): For fast-paced tests (many questions, little time per question), practice rapid recall. For slower tests, deeper thought is possible.
- 27:40 Use Flashcards for Fast Recall: Flashcards are an excellent tool for training quick recall of facts and definitions, especially useful for "sprint" tests.
- 28:46 Balance Study Time for Content Sources: If a test draws 50% from the textbook and 50% from lectures, study both equally, even if one takes more time.
- 32:32 Problem 3: Forgetting Curve & Lack of Support: Students rapidly forget information unless it's reinforced, and some are too proud to seek help.
- 33:57 The Forgetting Curve: Studies show people forget about 50% of new information within half an hour of learning it, and 60% within a day.
- 35:50 Strategy 4: Immediate Review: Reviewing material for 5-10 minutes immediately after reading a chapter or leaving a lecture significantly improves retention.
- 39:08 Strategy 5: Rewrite Long Lists into Manageable Chunks: Break overwhelming study guides (e.g., 183 terms) into smaller lists (e.g., 7 terms per list) to make learning less daunting and more effective.
- 41:34 Strategy 6: Utilize Tutoring Services: Overcome pride and seek help from tutors, which is often free at colleges and can significantly improve understanding and grades.
- 43:52 Strategy 7: Form Study Groups: Collaborating with peers allows for shared knowledge, mutual support, and a collective approach to understanding difficult material.
- 0:00 Introduction to Test-Taking Workshops: Scott Bruckner of the 90H department introduces upcoming workshops designed to help students improve as learners and test-takers.
- 0:08 Focus on Multiple-Choice Finals: The workshop specifically addresses strategies for college finals with multiple-choice questions, noting this is the most common test format in higher education.
- 0:21 Strategies for Studied Material: The presenter emphasizes that these strategies are for students who have already studied, aiming to help them effectively transfer their knowledge onto the test and start strong.
- 0:33 Quick Test Preview: Before beginning, students should take a few seconds to preview the entire test, noting the number of questions, total time, and different sections or question types (e.g., multiple-choice, true/false, matching).
- 0:50 Calculate Time Per Question: Divide the total test time by the number of questions (e.g., 60 minutes / 50 questions = 1.2 minutes per question) and note the halfway point for time and questions. This calculation helps students, especially slower test-takers, manage their pace and avoid rushing.
- 1:11 The "Not Multiple Choice" Method: This core strategy involves using your non-writing hand to cover the answer choices, reading the question, and trying to recall the answer from memory before looking at the options. This method has been shown to improve grades.
- 1:30 Four Possible Outcomes: When using this method, there are four results:
- Easy: The answer comes to mind instantly and is present in the choices.
- Bad: The answer comes to mind but is not listed as an option.
- Challenging: You know you've seen the information but can't recall the specific answer immediately.
- Impossible: You read the question and have no prior knowledge or idea of the answer.
- 2:11 Start with Strengths to Build Confidence: It's recommended to start with the easiest questions (where the answer pops right into mind) to build confidence and momentum, rather than starting at question one.
- 2:10 Brain as a Computer - Benefits of Skipping: Skipping challenging questions allows the brain to process information in the background, similar to recalling a forgotten name later. This "mental warm-up" often makes skipped questions seem easier when revisited.
- 2:41 Why Cover Choices (Avoid Distractors): Covering choices prevents "distractors" (incorrect but plausible answers) from confusing the student. By recalling the answer first, students avoid being misled by tricky options designed to resemble the correct answer.
- 3:30 Handling Special Question Types:
- For "all of the above" or "both A & B," if your initial recall matches one option, check if other options could also be correct before selecting.
- For "except" questions, read the choices first to identify what is true, then eliminate to find the one that doesn't belong.
- 3:45 Critical Scantron Accuracy: Emphasizes the importance of carefully aligning question numbers on the test booklet with the scantron sheet, especially when skipping questions, to prevent mis-bubbling.
- 3:48 Overcoming a Slow Start - Personal Anecdote: The speaker shares an experience where he answered only 1 out of the first 11 questions on a test but ultimately scored 96% by applying these strategies. This illustrates that a slow start is normal and doesn't predict overall failure; the brain sometimes needs time to "kick into gear."
- 4:14 Reduce Anxiety, Maximize Points: The overarching goal of these strategies is to help students remain relaxed, prevent panic, and systematically work through the test to secure as many points as possible, ensuring easy marks are not lost.
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*Abstract:* This workshop presents comprehensive strategies for effective test preparation and study, emphasizing the proactive method of anticipating exam questions. The core technique, dubbed the "Why" method, encourages students to actively engage with textbook material by transforming chapter headings and textual content into various question types (who, what, where, when, why, how, fill-in-the-blank, true/false, multiple choice) *before* reading. This approach fosters a curious, investigative mindset, turning passive reading into a purposeful "hunt" for answers. The speaker highlights key benefits: enhanced concentration, creation of personalized and effective self-study tools, and a significant confidence boost and advantage on actual exams. The workshop also proposes a collaborative group study model where students create and exchange quizzes, effectively conducting "dress rehearsals" for tests, ultimately leading to deeper understanding and improved time efficiency in studying. *Mastering Test Preparation: Predicting Questions for Effective Study* * *0:00 - 1:47 The Core Goal:* The workshop aims to teach students how to predict test questions and improve test preparation by getting "inside the mind of the teacher" to anticipate what will be on the exam. * *1:48 - 5:04 The "Why" Method for Active Learning:* Inspired by children's relentless questioning, this method encourages students to actively ask "why" about textbook content, transforming passive reading into a purposeful quest for understanding, rather than just "finishing" a chapter. * *5:05 - 9:09 Turning Headings into Questions:* A specific note-taking technique is introduced where students divide a page and convert chapter headings into questions (Who, What, Where, When, Why, How) *before* reading, turning the reading process into a hunt for answers. * *11:19 - 13:59 Benefits: Enhanced Concentration & Self-Study Tool:* This proactive questioning method improves concentration by providing a clear purpose for reading. Writing answers to these questions on the back of the page creates an effective, personalized study tool akin to flashcards. * *14:00 - 17:58 Benefits: Test Performance Advantage:* Recognizing questions you've formulated during study on an actual exam provides a significant advantage, boosting confidence and confirming effective preparation, which is presented as smart studying, not cheating. * *17:59 - 21:39 Time Efficiency & Cognitive Development:* While the initial process of generating questions may seem time-consuming, it ultimately saves time by deepening comprehension and reducing the need for re-reading. It also trains the brain to think critically and inquisitively beyond academics. * *21:40 - 30:26 Creating Varied Practice Questions:* Students are taught to "act as teachers" and formulate different types of test questions (fill-in-the-blank, true/false, multiple choice) directly from the text, by identifying key details or even intentionally altering facts to create false statements. * *34:00 - 40:00 Collaborative Study Strategy:* A powerful group study method is suggested: students divide chapters, each creates a quiz for their assigned section, then exchange, take, and discuss the quizzes. This acts as a "dress rehearsal" for the real exam, promoting mutual teaching and comprehensive coverage. * *40:01 - 41:00 Overall Impact:* This proactive and engaging study approach, though requiring effort, leads to better retention, increased confidence, and improved performance on tests, making studying more effective and less daunting. I used gemini-2.5-flash-preview-05-20| input-price: 0.15 output-price: 3.5 max-context-length: 128_000 on rocketrecap dot com to summarize the transcript. Cost (if I didn't use the free tier): $0.0057 Input tokens: 20414 Output tokens: 752
Abstract:
This workshop presents comprehensive strategies for effective test preparation and study, emphasizing the proactive method of anticipating exam questions. The core technique, dubbed the "Why" method, encourages students to actively engage with textbook material by transforming chapter headings and textual content into various question types (who, what, where, when, why, how, fill-in-the-blank, true/false, multiple choice) before reading. This approach fosters a curious, investigative mindset, turning passive reading into a purposeful "hunt" for answers. The speaker highlights key benefits: enhanced concentration, creation of personalized and effective self-study tools, and a significant confidence boost and advantage on actual exams. The workshop also proposes a collaborative group study model where students create and exchange quizzes, effectively conducting "dress rehearsals" for tests, ultimately leading to deeper understanding and improved time efficiency in studying.
Mastering Test Preparation: Predicting Questions for Effective Study
Below, I will provide input for an example video (comprising of title, description, and transcript, in this order) and the corresponding abstract and summary I expect. Afterward, I will provide a new transcript that I want you to summarize in the same format. **Please give an abstract of the transcript and then summarize the transcript in a self-contained bullet list format.** Include starting timestamps, important details and key takeaways. Example Input: Fluidigm Polaris Part 2- illuminator and camera mikeselectricstuff 131K subscribers Subscribed 369 Share Download Clip Save 5,857 views Aug 26, 2024 Fluidigm Polaris part 1 : • Fluidigm Polaris (Part 1) - Biotech g... Ebay listings: https://www.ebay.co.uk/usr/mikeselect... Merch https://mikeselectricstuff.creator-sp... Transcript Follow along using the transcript. Show transcript mikeselectricstuff 131K subscribers Videos About Support on Patreon 40 Comments @robertwatsonbath 6 hours ago Thanks Mike. Ooof! - with the level of bodgery going on around 15:48 I think shame would have made me do a board re spin, out of my own pocket if I had to. 1 Reply @Muonium1 9 hours ago The green LED looks different from the others and uses phosphor conversion because of the "green gap" problem where green InGaN emitters suffer efficiency droop at high currents. Phosphide based emitters don't start becoming efficient until around 600nm so also can't be used for high power green emitters. See the paper and plot by Matthias Auf der Maur in his 2015 paper on alloy fluctuations in InGaN as the cause of reduced external quantum efficiency at longer (green) wavelengths. 4 Reply 1 reply @tafsirnahian669 10 hours ago (edited) Can this be used as an astrophotography camera? Reply mikeselectricstuff · 1 reply @mikeselectricstuff 6 hours ago Yes, but may need a shutter to avoid light during readout Reply @2010craggy 11 hours ago Narrowband filters we use in Astronomy (Astrophotography) are sided- they work best passing light in one direction so I guess the arrows on the filter frames indicate which way round to install them in the filter wheel. 1 Reply @vitukz 12 hours ago A mate with Channel @extractions&ire could use it 2 Reply @RobertGallop 19 hours ago That LED module says it can go up to 28 amps!!! 21 amps for 100%. You should see what it does at 20 amps! Reply @Prophes0r 19 hours ago I had an "Oh SHIT!" moment when I realized that the weird trapezoidal shape of that light guide was for keystone correction of the light source. Very clever. 6 Reply @OneBiOzZ 20 hours ago given the cost of the CCD you think they could have run another PCB for it 9 Reply @tekvax01 21 hours ago $20 thousand dollars per minute of run time! 1 Reply @tekvax01 22 hours ago "We spared no expense!" John Hammond Jurassic Park. *(that's why this thing costs the same as a 50-seat Greyhound Bus coach!) Reply @florianf4257 22 hours ago The smearing on the image could be due to the fact that you don't use a shutter, so you see brighter stripes under bright areas of the image as you still iluminate these pixels while the sensor data ist shifted out towards the top. I experienced this effect back at university with a LN-Cooled CCD for Spectroscopy. The stripes disapeared as soon as you used the shutter instead of disabling it in the open position (but fokussing at 100ms integration time and continuous readout with a focal plane shutter isn't much fun). 12 Reply mikeselectricstuff · 1 reply @mikeselectricstuff 12 hours ago I didn't think of that, but makes sense 2 Reply @douro20 22 hours ago (edited) The red LED reminds me of one from Roithner Lasertechnik. I have a Symbol 2D scanner which uses two very bright LEDs from that company, one red and one red-orange. The red-orange is behind a lens which focuses it into an extremely narrow beam. 1 Reply @RicoElectrico 23 hours ago PFG is Pulse Flush Gate according to the datasheet. Reply @dcallan812 23 hours ago Very interesting. 2x Reply @littleboot_ 1 day ago Cool interesting device Reply @dav1dbone 1 day ago I've stripped large projectors, looks similar, wonder if some of those castings are a magnesium alloy? Reply @kevywevvy8833 1 day ago ironic that some of those Phlatlight modules are used in some of the cheapest disco lights. 1 Reply 1 reply @bill6255 1 day ago Great vid - gets right into subject in title, its packed with information, wraps up quickly. Should get a YT award! imho 3 Reply @JAKOB1977 1 day ago (edited) The whole sensor module incl. a 5 grand 50mpix sensor for 49 £.. highest bid atm Though also a limited CCD sensor, but for the right buyer its a steal at these relative low sums. Architecture Full Frame CCD (Square Pixels) Total Number of Pixels 8304 (H) × 6220 (V) = 51.6 Mp Number of Effective Pixels 8208 (H) × 6164 (V) = 50.5 Mp Number of Active Pixels 8176 (H) × 6132 (V) = 50.1 Mp Pixel Size 6.0 m (H) × 6.0 m (V) Active Image Size 49.1 mm (H) × 36.8 mm (V) 61.3 mm (Diagonal), 645 1.1x Optical Format Aspect Ratio 4:3 Horizontal Outputs 4 Saturation Signal 40.3 ke− Output Sensitivity 31 V/e− Quantum Efficiency KAF−50100−CAA KAF−50100−AAA KAF−50100−ABA (with Lens) 22%, 22%, 16% (Peak R, G, B) 25% 62% Read Noise (f = 18 MHz) 12.5 e− Dark Signal (T = 60°C) 42 pA/cm2 Dark Current Doubling Temperature 5.7°C Dynamic Range (f = 18 MHz) 70.2 dB Estimated Linear Dynamic Range (f = 18 MHz) 69.3 dB Charge Transfer Efficiency Horizontal Vertical 0.999995 0.999999 Blooming Protection (4 ms Exposure Time) 800X Saturation Exposure Maximum Date Rate 18 MHz Package Ceramic PGA Cover Glass MAR Coated, 2 Sides or Clear Glass Features • TRUESENSE Transparent Gate Electrode for High Sensitivity • Ultra-High Resolution • Board Dynamic Range • Low Noise Architecture • Large Active Imaging Area Applications • Digitization • Mapping/Aerial • Photography • Scientific Thx for the tear down Mike, always a joy Reply @martinalooksatthings 1 day ago 15:49 that is some great bodging on of caps, they really didn't want to respin that PCB huh 8 Reply @RhythmGamer 1 day ago Was depressed today and then a new mike video dropped and now I’m genuinely happy to get my tear down fix 1 Reply @dine9093 1 day ago (edited) Did you transfrom into Mr Blobby for a moment there? 2 Reply @NickNorton 1 day ago Thanks Mike. Your videos are always interesting. 5 Reply @KeritechElectronics 1 day ago Heavy optics indeed... Spare no expense, cost no object. Splendid build quality. The CCD is a thing of beauty! 1 Reply @YSoreil 1 day ago The pricing on that sensor is about right, I looked in to these many years ago when they were still in production since it's the only large sensor you could actually buy. Really cool to see one in the wild. 2 Reply @snik2pl 1 day ago That leds look like from led projector Reply @vincei4252 1 day ago TDI = Time Domain Integration ? 1 Reply @wolpumba4099 1 day ago (edited) Maybe the camera should not be illuminated during readout. From the datasheet of the sensor (Onsemi): saturation 40300 electrons, read noise 12.5 electrons per pixel @ 18MHz (quite bad). quantum efficiency 62% (if it has micro lenses), frame rate 1 Hz. lateral overflow drain to prevent blooming protects against 800x (factor increases linearly with exposure time) saturation exposure (32e6 electrons per pixel at 4ms exposure time), microlens has +/- 20 degree acceptance angle i guess it would be good for astrophotography 4 Reply @txm100 1 day ago (edited) Babe wake up a new mikeselectricstuff has dropped! 9 Reply @vincei4252 1 day ago That looks like a finger-lakes filter wheel, however, for astronomy they'd never use such a large stepper. 1 Reply @MRooodddvvv 1 day ago yaaaaay ! more overcomplicated optical stuff ! 4 Reply 1 reply @NoPegs 1 day ago He lives! 11 Reply 1 reply Transcript 0:00 so I've stripped all the bits of the 0:01 optical system so basically we've got 0:03 the uh the camera 0:05 itself which is mounted on this uh very 0:09 complex 0:10 adjustment thing which obviously to set 0:13 you the various tilt and uh alignment 0:15 stuff then there's two of these massive 0:18 lenses I've taken one of these apart I 0:20 think there's something like about eight 0:22 or nine Optical elements in here these 0:25 don't seem to do a great deal in terms 0:26 of electr magnification they're obiously 0:28 just about getting the image to where it 0:29 uh where it needs to be just so that 0:33 goes like that then this Optical block I 0:36 originally thought this was made of some 0:37 s crazy heavy material but it's just 0:39 really the sum of all these Optical bits 0:41 are just ridiculously heavy those lenses 0:43 are about 4 kilos each and then there's 0:45 this very heavy very solid um piece that 0:47 goes in the middle and this is so this 0:49 is the filter wheel assembly with a 0:51 hilariously oversized steper 0:53 motor driving this wheel with these very 0:57 large narrow band filters so we've got 1:00 various different shades of uh 1:03 filters there five Al together that 1:06 one's actually just showing up a silver 1:07 that's actually a a red but fairly low 1:10 transmission orangey red blue green 1:15 there's an excess cover on this side so 1:16 the filters can be accessed and changed 1:19 without taking anything else apart even 1:21 this is like ridiculous it's like solid 1:23 aluminium this is just basically a cover 1:25 the actual wavelengths of these are um 1:27 488 525 570 630 and 700 NM not sure what 1:32 the suffix on that perhaps that's the uh 1:34 the width of the spectral line say these 1:37 are very narrow band filters most of 1:39 them are you very little light through 1:41 so it's still very tight narrow band to 1:43 match the um fluoresence of the dies 1:45 they're using in the biochemical process 1:48 and obviously to reject the light that's 1:49 being fired at it from that Illuminator 1:51 box and then there's a there's a second 1:53 one of these lenses then the actual sort 1:55 of samples below that so uh very serious 1:58 amount of very uh chunky heavy Optics 2:01 okay let's take a look at this light 2:02 source made by company Lumen Dynamics 2:04 who are now part of 2:06 excelitas self-contained unit power 2:08 connector USB and this which one of the 2:11 Cable Bundle said was a TTL interface 2:14 USB wasn't used in uh the fluid 2:17 application output here and I think this 2:19 is an input for um light feedback I 2:21 don't if it's regulated or just a measur 2:23 measurement facility and the uh fiber 2:27 assembly 2:29 Square Inlet there and then there's two 2:32 outputs which have uh lens assemblies 2:35 and this small one which goes back into 2:37 that small Port just Loops out of here 2:40 straight back in So on this side we've 2:42 got the electronics which look pretty 2:44 straightforward we've got a bit of power 2:45 supply stuff over here and we've got 2:48 separate drivers for each wavelength now 2:50 interesting this is clearly been very 2:52 specifically made for this application 2:54 you I was half expecting like say some 2:56 generic drivers that could be used for a 2:58 number of different things but actually 3:00 literally specified the exact wavelength 3:02 on the PCB there is provision here for 3:04 385 NM which isn't populated but this is 3:07 clearly been designed very specifically 3:09 so these four drivers look the same but 3:10 then there's two higher power ones for 3:12 575 and 3:14 520 a slightly bigger heat sink on this 3:16 575 section there a p 24 which is 3:20 providing USB interface USB isolator the 3:23 USB interface just presents as a comport 3:26 I did have a quick look but I didn't 3:27 actually get anything sensible um I did 3:29 dump the Pi code out and there's a few 3:31 you a few sort of commands that you 3:32 could see in text but I didn't actually 3:34 manage to get it working properly I 3:36 found some software for related version 3:38 but it didn't seem to want to talk to it 3:39 but um I say that wasn't used for the 3:41 original application it might be quite 3:42 interesting to get try and get the Run 3:44 hours count out of it and the TTL 3:46 interface looks fairly straightforward 3:48 we've got positions for six opto 3:50 isolators but only five five are 3:52 installed so that corresponds with the 3:54 unused thing so I think this hopefully 3:56 should be as simple as just providing a 3:57 ttrl signal for each color to uh enable 4:00 it a big heat sink here which is there I 4:03 think there's like a big S of metal 4:04 plate through the middle of this that 4:05 all the leads are mounted on the other 4:07 side so this is heat sinking it with a 4:09 air flow from a uh just a fan in here 4:13 obviously don't have the air flow 4:14 anywhere near the Optics so conduction 4:17 cool through to this plate that's then 4:18 uh air cooled got some pots which are 4:21 presumably power 4:22 adjustments okay let's take a look at 4:24 the other side which is uh much more 4:27 interesting see we've got some uh very 4:31 uh neatly Twisted cable assemblies there 4:35 a bunch of leads so we've got one here 4:37 475 up here 430 NM 630 575 and 520 4:44 filters and dcro mirrors a quick way to 4:48 see what's white is if we just shine 4:49 some white light through 4:51 here not sure how it is is to see on the 4:54 camera but shining white light we do 4:55 actually get a bit of red a bit of blue 4:57 some yellow here so the obstacle path 5:00 575 it goes sort of here bounces off 5:03 this mirror and goes out the 520 goes 5:07 sort of down here across here and up 5:09 there 630 goes basically straight 5:13 through 5:15 430 goes across there down there along 5:17 there and the 475 goes down here and 5:20 left this is the light sensing thing 5:22 think here there's just a um I think 5:24 there a photo diode or other sensor 5:26 haven't actually taken that off and 5:28 everything's fixed down to this chunk of 5:31 aluminium which acts as the heat 5:32 spreader that then conducts the heat to 5:33 the back side for the heat 5:35 sink and the actual lead packages all 5:38 look fairly similar except for this one 5:41 on the 575 which looks quite a bit more 5:44 substantial big spay 5:46 Terminals and the interface for this 5:48 turned out to be extremely simple it's 5:50 literally a 5V TTL level to enable each 5:54 color doesn't seem to be any tensity 5:56 control but there are some additional 5:58 pins on that connector that weren't used 5:59 in the through time thing so maybe 6:01 there's some extra lines that control 6:02 that I couldn't find any data on this uh 6:05 unit and the um their current product 6:07 range is quite significantly different 6:09 so we've got the uh blue these 6:13 might may well be saturating the camera 6:16 so they might look a bit weird so that's 6:17 the 430 6:18 blue the 575 6:24 yellow uh 6:26 475 light blue 6:29 the uh 520 6:31 green and the uh 630 red now one 6:36 interesting thing I noticed for the 6:39 575 it's actually it's actually using a 6:42 white lead and then filtering it rather 6:44 than using all the other ones are using 6:46 leads which are the fundamental colors 6:47 but uh this is actually doing white and 6:50 it's a combination of this filter and 6:52 the dichroic mirrors that are turning to 6:55 Yellow if we take the filter out and a 6:57 lot of the a lot of the um blue content 7:00 is going this way the red is going 7:02 straight through these two mirrors so 7:05 this is clearly not reflecting much of 7:08 that so we end up with the yellow coming 7:10 out of uh out of there which is a fairly 7:14 light yellow color which you don't 7:16 really see from high intensity leads so 7:19 that's clearly why they've used the 7:20 white to uh do this power consumption of 7:23 the white is pretty high so going up to 7:25 about 2 and 1 half amps on that color 7:27 whereas most of the other colors are 7:28 only drawing half an amp or so at 24 7:30 volts the uh the green is up to about 7:32 1.2 but say this thing is uh much 7:35 brighter and if you actually run all the 7:38 colors at the same time you get a fairly 7:41 reasonable um looking white coming out 7:43 of it and one thing you might just be 7:45 out to notice is there is some sort 7:46 color banding around here that's not 7:49 getting uh everything s completely 7:51 concentric and I think that's where this 7:53 fiber optic thing comes 7:58 in I'll 8:00 get a couple of Fairly accurately shaped 8:04 very sort of uniform color and looking 8:06 at What's um inside here we've basically 8:09 just got this Square Rod so this is 8:12 clearly yeah the lights just bouncing 8:13 off all the all the various sides to um 8:16 get a nice uniform illumination uh this 8:19 back bit looks like it's all potted so 8:21 nothing I really do to get in there I 8:24 think this is fiber so I have come 8:26 across um cables like this which are 8:27 liquid fill but just looking through the 8:30 end of this it's probably a bit hard to 8:31 see it does look like there fiber ends 8:34 going going on there and so there's this 8:36 feedback thing which is just obviously 8:39 compensating for the any light losses 8:41 through here to get an accurate 8:43 representation of uh the light that's 8:45 been launched out of these two 8:47 fibers and you see uh 8:49 these have got this sort of trapezium 8:54 shape light guides again it's like a 8:56 sort of acrylic or glass light guide 9:00 guess projected just to make the right 9:03 rectangular 9:04 shape and look at this Center assembly 9:07 um the light output doesn't uh change 9:10 whether you feed this in or not so it's 9:11 clear not doing any internal Clos Loop 9:14 control obviously there may well be some 9:16 facility for it to do that but it's not 9:17 being used in this 9:19 application and so this output just 9:21 produces a voltage on the uh outle 9:24 connector proportional to the amount of 9:26 light that's present so there's a little 9:28 diffuser in the back there 9:30 and then there's just some kind of uh 9:33 Optical sensor looks like a 9:35 chip looking at the lead it's a very 9:37 small package on the PCB with this lens 9:40 assembly over the top and these look 9:43 like they're actually on a copper 9:44 Metalized PCB for maximum thermal 9:47 performance and yeah it's a very small 9:49 package looks like it's a ceramic 9:51 package and there's a thermister there 9:53 for temperature monitoring this is the 9:56 475 blue one this is the 520 need to 9:59 Green which is uh rather different OB 10:02 it's a much bigger D with lots of bond 10:04 wise but also this looks like it's using 10:05 a phosphor if I shine a blue light at it 10:08 lights up green so this is actually a 10:10 phosphor conversion green lead which 10:12 I've I've come across before they want 10:15 that specific wavelength so they may be 10:17 easier to tune a phosphor than tune the 10:20 um semiconductor material to get the uh 10:23 right right wavelength from the lead 10:24 directly uh red 630 similar size to the 10:28 blue one or does seem to have a uh a 10:31 lens on top of it there is a sort of red 10:33 coloring to 10:35 the die but that doesn't appear to be 10:38 fluorescent as far as I can 10:39 tell and the white one again a little 10:41 bit different sort of much higher 10:43 current 10:46 connectors a makeer name on that 10:48 connector flot light not sure if that's 10:52 the connector or the lead 10:54 itself and obviously with the phosphor 10:56 and I'd imagine that phosphor may well 10:58 be tuned to get the maximum to the uh 5 11:01 cenm and actually this white one looks 11:04 like a St fairly standard product I just 11:06 found it in Mouse made by luminous 11:09 devices in fact actually I think all 11:11 these are based on various luminous 11:13 devices modules and they're you take 11:17 looks like they taking the nearest 11:18 wavelength and then just using these 11:19 filters to clean it up to get a precise 11:22 uh spectral line out of it so quite a 11:25 nice neat and um extreme 11:30 bright light source uh sure I've got any 11:33 particular use for it so I think this 11:35 might end up on 11:36 eBay but uh very pretty to look out and 11:40 without the uh risk of burning your eyes 11:43 out like you do with lasers so I thought 11:45 it would be interesting to try and 11:46 figure out the runtime of this things 11:48 like this we usually keep some sort 11:49 record of runtime cuz leads degrade over 11:51 time I couldn't get any software to work 11:52 through the USB face but then had a 11:54 thought probably going to be writing the 11:55 runtime periodically to the e s prom so 11:58 I just just scope up that and noticed it 12:00 was doing right every 5 minutes so I 12:02 just ran it for a while periodically 12:04 reading the E squ I just held the pick 12:05 in in reset and um put clip over to read 12:07 the square prom and found it was writing 12:10 one location per color every 5 minutes 12:12 so if one color was on it would write 12:14 that location every 5 minutes and just 12:16 increment it by one so after doing a few 12:18 tests with different colors of different 12:19 time periods it looked extremely 12:21 straightforward it's like a four bite 12:22 count for each color looking at the 12:24 original data that was in it all the 12:26 colors apart from Green were reading 12:28 zero and the green was reading four 12:30 indicating a total 20 minutes run time 12:32 ever if it was turned on run for a short 12:34 time then turned off that might not have 12:36 been counted but even so indicates this 12:37 thing wasn't used a great deal the whole 12:40 s process of doing a run can be several 12:42 hours but it'll only be doing probably 12:43 the Imaging at the end of that so you 12:46 wouldn't expect to be running for a long 12:47 time but say a single color for 20 12:50 minutes over its whole lifetime does 12:52 seem a little bit on the low side okay 12:55 let's look at the camera un fortunately 12:57 I managed to not record any sound when I 12:58 did this it's also a couple of months 13:00 ago so there's going to be a few details 13:02 that I've forgotten so I'm just going to 13:04 dub this over the original footage so um 13:07 take the lid off see this massive great 13:10 heat sink so this is a pel cool camera 13:12 we've got this blower fan producing a 13:14 fair amount of air flow through 13:16 it the connector here there's the ccds 13:19 mounted on the board on the 13:24 right this unplugs so we've got a bit of 13:27 power supply stuff on here 13:29 USB interface I think that's the Cyprus 13:32 microcontroller High speeded USB 13:34 interface there's a zyink spon fpga some 13:40 RAM and there's a couple of ATD 13:42 converters can't quite read what those 13:45 those are but anal 13:47 devices um little bit of bodgery around 13:51 here extra decoupling obviously they 13:53 have having some noise issues this is 13:55 around the ram chip quite a lot of extra 13:57 capacitors been added there 13:59 uh there's a couple of amplifiers prior 14:01 to the HD converter buffers or Andor 14:05 amplifiers taking the CCD 14:08 signal um bit more power spy stuff here 14:11 this is probably all to do with 14:12 generating the various CCD bias voltages 14:14 they uh need quite a lot of exotic 14:18 voltages next board down is just a 14:20 shield and an interconnect 14:24 boardly shielding the power supply stuff 14:26 from some the more sensitive an log 14:28 stuff 14:31 and this is the bottom board which is 14:32 just all power supply 14:34 stuff as you can see tons of capacitors 14:37 or Transformer in 14:42 there and this is the CCD which is a uh 14:47 very impressive thing this is a kf50 100 14:50 originally by true sense then codec 14:53 there ON 14:54 Semiconductor it's 50 megapixels uh the 14:58 only price I could find was this one 15:00 5,000 bucks and the architecture you can 15:03 see there actually two separate halves 15:04 which explains the Dual AZ converters 15:06 and two amplifiers it's literally split 15:08 down the middle and duplicated so it's 15:10 outputting two streams in parallel just 15:13 to keep the bandwidth sensible and it's 15:15 got this amazing um diffraction effects 15:18 it's got micro lenses over the pixel so 15:20 there's there's a bit more Optics going 15:22 on than on a normal 15:25 sensor few more bodges on the CCD board 15:28 including this wire which isn't really 15:29 tacked down very well which is a bit uh 15:32 bit of a mess quite a few bits around 15:34 this board where they've uh tacked 15:36 various bits on which is not super 15:38 impressive looks like CCD drivers on the 15:40 left with those 3 ohm um damping 15:43 resistors on the 15:47 output get a few more little bodges 15:50 around here some of 15:52 the and there's this separator the 15:54 silica gel to keep the moisture down but 15:56 there's this separator that actually 15:58 appears to be cut from piece of 15:59 antistatic 16:04 bag and this sort of thermal block on 16:06 top of this stack of three pel Cola 16:12 modules so as with any Stacks they get 16:16 um larger as they go back towards the 16:18 heat sink because each P's got to not 16:20 only take the heat from the previous but 16:21 also the waste heat which is quite 16:27 significant you see a little temperature 16:29 sensor here that copper block which 16:32 makes contact with the back of the 16:37 CCD and this's the back of the 16:40 pelas this then contacts the heat sink 16:44 on the uh rear there a few thermal pads 16:46 as well for some of the other power 16:47 components on this 16:51 PCB okay I've connected this uh camera 16:54 up I found some drivers on the disc that 16:56 seem to work under Windows 7 couldn't 16:58 get to install under Windows 11 though 17:01 um in the absence of any sort of lens or 17:03 being bothered to the proper amount I've 17:04 just put some f over it and put a little 17:06 pin in there to make a pinhole lens and 17:08 software gives a few options I'm not 17:11 entirely sure what all these are there's 17:12 obviously a clock frequency 22 MHz low 17:15 gain and with PFG no idea what that is 17:19 something something game programmable 17:20 Something game perhaps ver exposure 17:23 types I think focus is just like a 17:25 continuous grab until you tell it to 17:27 stop not entirely sure all these options 17:30 are obviously exposure time uh triggers 17:33 there ex external hardware trigger inut 17:35 you just trigger using a um thing on 17:37 screen so the resolution is 8176 by 17:40 6132 and you can actually bin those 17:42 where you combine multiple pixels to get 17:46 increased gain at the expense of lower 17:48 resolution down this is a 10sec exposure 17:51 obviously of the pin hole it's very uh 17:53 intensitive so we just stand still now 17:56 downloading it there's the uh exposure 17:59 so when it's 18:01 um there's a little status thing down 18:03 here so that tells you the um exposure 18:07 [Applause] 18:09 time it's this is just it 18:15 downloading um it is quite I'm seeing 18:18 quite a lot like smearing I think that I 18:20 don't know whether that's just due to 18:21 pixels overloading or something else I 18:24 mean yeah it's not it's not um out of 18:26 the question that there's something not 18:27 totally right about this camera 18:28 certainly was bodge wise on there um I 18:31 don't I'd imagine a camera like this 18:32 it's got a fairly narrow range of 18:34 intensities that it's happy with I'm not 18:36 going to spend a great deal of time on 18:38 this if you're interested in this camera 18:40 maybe for astronomy or something and 18:42 happy to sort of take the risk of it may 18:44 not be uh perfect I'll um I think I'll 18:47 stick this on eBay along with the 18:48 Illuminator I'll put a link down in the 18:50 description to the listing take your 18:52 chances to grab a bargain so for example 18:54 here we see this vertical streaking so 18:56 I'm not sure how normal that is this is 18:58 on fairly bright scene looking out the 19:02 window if I cut the exposure time down 19:04 on that it's now 1 second 19:07 exposure again most of the image 19:09 disappears again this is looks like it's 19:11 possibly over still overloading here go 19:14 that go down to say say quarter a 19:16 second so again I think there might be 19:19 some Auto gain control going on here um 19:21 this is with the PFG option let's try 19:23 turning that off and see what 19:25 happens so I'm not sure this is actually 19:27 more streaking or which just it's 19:29 cranked up the gain all the dis display 19:31 gray scale to show what um you know the 19:33 range of things that it's captured 19:36 there's one of one of 12 things in the 19:38 software there's um you can see of you 19:40 can't seem to read out the temperature 19:42 of the pelta cooler but you can set the 19:44 temperature and if you said it's a 19:46 different temperature you see the power 19:48 consumption jump up running the cooler 19:50 to get the temperature you requested but 19:52 I can't see anything anywhere that tells 19:54 you whether the cool is at the at the 19:56 temperature other than the power 19:57 consumption going down and there's no 19:59 temperature read out 20:03 here and just some yeah this is just 20:05 sort of very basic software I'm sure 20:07 there's like an API for more 20:09 sophisticated 20:10 applications but so if you know anything 20:12 more about these cameras please um stick 20:14 in the 20:15 comments um incidentally when I was 20:18 editing I didn't notice there was a bent 20:19 pin on the um CCD but I did fix that 20:22 before doing these tests and also 20:24 reactivated the um silica gel desicant 20:26 cuz I noticed it was uh I was getting 20:28 bit of condensation on the window but um 20:31 yeah so a couple of uh interesting but 20:34 maybe not particularly uh useful pieces 20:37 of Kit except for someone that's got a 20:38 very specific use so um I'll stick a 20:42 I'll stick these on eBay put a link in 20:44 the description and say hopefully 20:45 someone could actually make some uh good 20:47 use of these things Example Output: **Abstract:** This video presents Part 2 of a teardown focusing on the optical components of a Fluidigm Polaris biotechnology instrument, specifically the multi-wavelength illuminator and the high-resolution CCD camera. The Lumen Dynamics illuminator unit is examined in detail, revealing its construction using multiple high-power LEDs (430nm, 475nm, 520nm, 575nm, 630nm) combined via dichroic mirrors and filters. A square fiber optic rod is used to homogenize the light. A notable finding is the use of a phosphor-converted white LED filtered to achieve the 575nm output. The unit features simple TTL activation for each color, conduction cooling, and internal homogenization optics. Analysis of its EEPROM suggests extremely low operational runtime. The camera module teardown showcases a 50 Megapixel ON Semiconductor KAF-50100 CCD sensor with micro-lenses, cooled by a multi-stage Peltier stack. The control electronics include an FPGA and a USB interface. Significant post-manufacturing modifications ("bodges") are observed on the camera's circuit boards. Basic functional testing using vendor software and a pinhole lens confirms image capture but reveals prominent vertical streaking artifacts, the cause of which remains uncertain (potential overload, readout artifact, or fault). **Exploring the Fluidigm Polaris: A Detailed Look at its High-End Optics and Camera System** * **0:00 High-End Optics:** The system utilizes heavy, high-quality lenses and mirrors for precise imaging, weighing around 4 kilos each. * **0:49 Narrow Band Filters:** A filter wheel with five narrow band filters (488, 525, 570, 630, and 700 nm) ensures accurate fluorescence detection and rejection of excitation light. * **2:01 Customizable Illumination:** The Lumen Dynamics light source offers five individually controllable LED wavelengths (430, 475, 520, 575, 630 nm) with varying power outputs. The 575nm yellow LED is uniquely achieved using a white LED with filtering. * **3:45 TTL Control:** The light source is controlled via a simple TTL interface, enabling easy on/off switching for each LED color. * **12:55 Sophisticated Camera:** The system includes a 50-megapixel Kodak KAI-50100 CCD camera with a Peltier cooling system for reduced noise. * **14:54 High-Speed Data Transfer:** The camera features dual analog-to-digital converters to manage the high data throughput of the 50-megapixel sensor, which is effectively two 25-megapixel sensors operating in parallel. * **18:11 Possible Issues:** The video creator noted some potential issues with the camera, including image smearing. * **18:11 Limited Dynamic Range:** The camera's sensor has a limited dynamic range, making it potentially challenging to capture scenes with a wide range of brightness levels. * **11:45 Low Runtime:** Internal data suggests the system has seen minimal usage, with only 20 minutes of recorded runtime for the green LED. * **20:38 Availability on eBay:** Both the illuminator and camera are expected to be listed for sale on eBay. Here is the real transcript. Please summarize it: 00:00:00 I'm glad that you're here and hopefully when we're 00:00:04 to predict test questions I'm going to explain 00:00:11 before I start the next five workshops starting 00:00:16 students are good students except when they take 00:00:24 you're able to come to all five or as many as you 00:00:30 of how to prepare for tests right how to take 00:00:35 a test to think again all those things so those 00:00:41 what we're gonna talk about today primarily but 00:00:48 a question and this is kind of a strange question 00:00:52 were taking a college class especially a difficult 00:00:58 two or three days before the real test and gave 00:01:05 would that be a helpful thing yeah I assume so is 00:01:13 is kind of like the next best thing in a way 00:01:19 you can actually read and study your textbooks 00:01:26 to get you inside the mind of the teacher that's 00:01:32 the teacher but to try to anticipate or predict 00:01:38 if you can learn to do that you'll know the answer 00:01:44 of time and that's to your advantage and so that's 00:01:48 ideas or techniques the one we're gonna start with 00:01:54 on is this first one here and before I teach 00:02:00 sort of show you how it works I want to tell you 00:02:05 my two daughters was very little about three four 00:02:13 something and when you have the world champion 00:02:19 best in the whole world except that what she was 00:02:25 if you've ever been around small children at a 00:02:32 asking questions and it drives you crazy if you 00:02:40 for a child to have they're so hungry to learn 00:02:45 of the main ways that children learn is by asking 00:02:50 she would see someone crossing the street and she 00:02:57 wearing that it questions all the time she could 00:03:03 I'm a very patient person but everybody has their 00:03:10 asked questions she had asked me about 20 or 30 00:03:17 at home and I asked her something very politely I 00:03:26 I have something I have to do so could you do me a 00:03:33 toys I bought you and then you can come back later 00:03:39 polite way of saying it right well instead of 00:03:45 you think she said yes she said why and I thought 00:03:52 we want and that's what this is designed to do 00:04:01 most children are like sponges and they just are 00:04:07 adults bad things happen to at least most people 00:04:15 were little I use this as an example can I borrow 00:04:21 book I know so I want to use this okay when was 00:04:26 it up to read it and before you even opened it you 00:04:32 today okay nobody does they feel bits people 00:04:39 I hope this isn't too boring or too hard I got 00:04:45 punishment to sit and read the book for a lot of 00:04:50 to where you're so excited that you wake up in 00:04:55 be pretty good if I could do that but if I can 00:04:59 and that's what I'm going for okay so first one 00:05:06 of chapter headings is this gonna work in every 00:05:12 on the subject if you have an English book that 00:05:19 this doesn't apply but if you're in a regular 00:05:23 lot of factual information that's presented it's 00:05:29 should work really well you just have to practice 00:05:34 show you the first thing that I want to draw is 00:05:40 a handout that shows this in a second but I just 00:05:44 works first normally when somebody uses this 00:05:50 of notebook paper and they draw a line right 00:05:55 because you don't need usually a whole piece of 00:06:00 can do another one down here so it saves a little 00:06:05 up writing some information on the sides and then 00:06:12 the format so I want to show you what this looks 00:06:17 in a couple of minutes and I want you to see if 00:06:23 about asking questions I'm gonna ask you a few 00:06:41 first word you see at the very top of this page 00:06:46 passive inactive or there's one other word it 00:06:54 textbooks are very lazy and it doesn't look like 00:07:00 book open and you were leaning over it looks like 00:07:04 what's going on and this is again supposed to 00:07:09 lines here you see this little form which is what 00:07:17 so you would write the name of the textbook the 00:07:22 print heading that you see on that page okay 00:07:28 the left side those six words you see there that 00:07:34 of a learner that's kind of what they're called 00:07:39 them out and then again you're gonna do the same 00:07:45 of prepare it okay then here's a quick question 00:07:50 when they open up their textbook and start reading 00:08:03 it's to learn and master and memorize and under 00:08:12 up and they think how long is this gonna take can 00:08:18 goal is to finish that's not a very good goal 00:08:22 this is giving you a new goal that's way better 00:08:28 me ask this too when you're reading a textbook 00:08:34 got a heading here and you got a heading over 00:08:39 get to here and you're gonna start something new 00:08:44 heading yeah they keep reading why it's because 00:08:53 just read read read read that's the way most 00:08:59 not do that so here's the way you do it you read 00:09:05 get to a brand new heading instead of reading you 00:09:10 this is supposed to take so it's quick and what 00:09:16 in is you're supposed to brainstorm by looking 00:09:23 coming up with questions that start with who what 00:09:29 you actually read that okay and so to show you 00:09:35 over to the back side of the paper and you'll see 00:09:40 least this first part this is from an accounting 00:09:47 print heading at the top that said preparing a 00:09:55 that you know teaching us a student that rather 00:10:01 about it this person did what I just described 00:10:05 every question they could think of that might 00:10:10 so they started with who and they thought okay 00:10:15 to prepare a worksheet and then they thought 00:10:21 they couldn't think of any other who questions 00:10:26 you don't have to go in order you just kind of 00:10:31 what you write down now are you gonna find the 00:10:36 section yeah hardly ever right because you don't 00:10:42 just sort of thinking out loud and writing down 00:10:47 two or three minutes you're ready to read okay 00:10:53 come up with I have no idea but people who have 00:10:59 they've come up with three or four questions in 00:11:05 a little drizzle not very much other people have 00:11:12 as fast as you could write the more you do this 00:11:19 working that way in this little example that we're 00:11:23 and there's nothing special about that number it's 00:11:28 do this then you start reading the section so 00:11:35 this we said before that the goal of most people 00:11:41 start reading what's your goal now that's a lot 00:11:46 and so there one of the things I always like to 00:11:52 that there are three benefits to doing this method 00:12:00 and then closing the book and if you know what 00:12:05 them the first one has to do with what I just 00:12:10 it helps you to concentrate better and anything 00:12:22 your reading is a really good thing to do because 00:12:27 you concentrate better well most people again are 00:12:33 sort of learn what they can but their mind tends 00:12:38 go through it when you do it this way you have 00:12:45 reading you're gonna find the answer to one 00:12:51 there and then later on oh that's that one and so 00:12:55 for when you read that makes even the most boring 00:13:00 you have a point when you read and so it helps you 00:13:06 question for you about this as you're reading 00:13:12 answer to this question right there in the book 00:13:17 it yeah there are a lot of things you could do 00:13:27 it's because it's related to this next benefit 00:13:31 there it is right there you turn the page over 00:13:36 notebook paper and right on the other side you 00:13:41 the answer to this one you write it here so all 00:13:46 paper okay and the reason that that's important 00:13:52 while you're reading if it doesn't do this 00:13:58 to do this it provides you with a good study tool 00:14:09 section of the book these few pages and you go 00:14:22 one I didn't get that one and I got that one 00:14:29 these ten questions you come up with an answer to 00:14:35 but you didn't know that at the time or they were 00:14:41 so you just cross them out well now you have six 00:14:46 you going to study this to get ready for your 00:14:54 gonna test yourself like flashcards you don't have 00:15:02 form so you're looking at the question and you're 00:15:07 true about all of these things plus some other 00:15:12 the best thing you could ever do while studying 00:15:17 you that way you find out the worst time ever 00:15:24 well as you thought is when you're sitting there 00:15:28 oh boy I thought I knew that too that's a bad 00:15:33 the test when you're testing yourself at home and 00:15:39 you have time to fix it before you go take the 00:15:43 even if your questions on your real tests are not 00:15:50 they may be multiple choice or true false it 00:15:55 here okay and so that's the second benefit and 00:16:01 payoff and that is that it helps you on the test 00:16:12 so I want to ask you this I've had this happen to 00:16:21 this I want to see if you can figure this out if 00:16:26 through your chapter and come up with questions 00:16:31 teacher hands you the test and you start reading 00:16:37 you're gonna see every once in a while when you 00:16:42 of yours and it's a weird feeling to be taking 00:16:50 wrote that it's odd okay but when you recognize 00:16:56 that good news yeah I hope unless you didn't 00:17:02 know the answer it's on the back of your little 00:17:07 has 50 questions on it and you recognize only ten 00:17:14 more than everybody else in the room who just read 00:17:20 would remember it and so it gives you an advantage 00:17:25 see questions on the test every once in a while 00:17:31 first thought they always tell me they have about 00:17:36 like they're cheating like they got to see the 00:17:40 fast because it's not cheating and they just 00:17:46 studied and you've also done this it gives you 00:17:52 in questions and answers when you study instead of 00:17:57 remember it now one last thing specifically about 00:18:03 when I teach it and say yeah I bet that would 00:18:09 you want to call it that is time they're saying 00:18:18 alone sit there and write out all these questions 00:18:23 if you do this you know it would take hours every 00:18:28 time for you to do this than it does to read 00:18:34 find when they finish reading a chapter and they 00:18:41 yeah not much so what do they have to do often 00:18:46 three times well if you do it this way normally 00:18:51 then go back and study it this way and so doing 00:18:59 it but it saves time later and it's not that you 00:19:05 with every heading in every chapter but the more 00:19:10 teacher does and coming up with those questions 00:19:14 this is that as I mentioned a few minutes ago most 00:19:20 it's a little bit slow and they're brainstorming 00:19:29 it their brain starts going faster and faster 00:19:34 questions they almost can't write them down fast 00:19:40 brain to think this way and my favorite little 00:19:44 next one is this I had a student a few years ago 00:19:50 this he said you know when you taught that thing 00:19:59 said I kind of liked that idea because I was 00:20:05 something and close the book and I had no idea 00:20:09 really helped and it helped me to concentrate I 00:20:15 hear that that's really encouraging I say that's 00:20:20 things about it he said this believe it or not 00:20:26 that's not good I don't want to do that I said how 00:20:32 made me laugh even though no if he was saying 00:20:38 this that now when I'm walking down the street 00:20:46 the headline in the newspaper he said something 00:20:55 be yeah he asks questions like a little child like 00:21:03 says Senate passes bill and in the past he would 00:21:10 now as he's walking away what's the bill who wrote 00:21:15 he can't turn it off and I told him if that's the 00:21:22 us should be a lot more like that so again this is 00:21:29 child again thinking and being all curious and so 00:21:36 even teenagers and so this is a way to do it okay 00:21:42 we we kind of skip through little parts of this 00:21:48 later and it'll kind of I guess review a little 00:21:53 which is we're gonna spend most of the rest of 00:21:58 quizzes and a lot of times when I bring up this 00:22:06 just teach us how to do that because that's what 00:22:12 questions who what where when why how but this is 00:22:17 headings this has to do with all the stuff in 00:22:23 under that so what I want to do is I want to give 00:22:30 and I'm going to use this to sort of illustrate 00:22:36 textbooks differently than the way that you might 00:22:42 thinking more and coming up with some good study 00:22:51 this is from a textbook in what subject okay what 00:23:06 so yeah so related to this has anybody here ever 00:23:22 I picked this because most people look at this 00:23:27 that means we're all starting sort of from scratch 00:23:32 about the next 10 or 15 minutes and I know this is 00:23:37 you are no longer a student so congratulations 00:23:44 anymore you're a teacher and not only are you a 00:23:51 big jump for almost everybody in here okay if you 00:23:57 that you assigned to your students and you want to 00:24:06 have to do is what teachers do every day which is 00:24:13 questions create a test if you can learn to do 00:24:19 big advantage to you when you study so that's what 00:24:23 page you see a table or a chart with four planets 00:24:31 few years ago to kind of fly by those and take 00:24:37 Jupiter's outer layers you have all these facts 00:24:44 you about this is that in my experience working 00:24:51 for a student to learn how to make for themselves 00:24:56 you can make up a multiple-choice question you can 00:25:07 bit longer and so I want to show you these even if 00:25:13 not fill in or true/false again it doesn't matter 00:25:19 you a couple of examples of this and ask you to 00:25:24 very first sentence on the page right under 00:25:29 you and then I want to ask you something okay 00:25:33 provided by pioneers 10 and 11 in December 1973 00:25:41 one sentence okay put your teacher hat on for a 00:25:50 statement where one word is taken out and a blank 00:25:58 would have to do which is pretty simple is look 00:26:04 this what word is very important in that sentence 00:26:11 possibilities but what's an important word in 00:26:16 what else yeah that could be dates could be etc 00:26:30 fill-in-the-blank statement about this one example 00:26:36 the first close-up look at blank and then you're 00:26:45 look at Jupiter was provided by blank 10 and 11 00:26:52 fill-in question you don't have to think of a 00:26:59 what's there and write it again and leave a word 00:27:04 as easy as it gets okay I want to show you one 00:27:09 and then I'm gonna put you to work on something 00:27:13 paragraph over on this side I want you to look 00:27:18 three words you can kind of ignore where it says 00:27:25 about that but look at the rest of that sentence 00:27:29 I've read it and that is what word are you gonna 00:27:36 this says the chemical composition of Jupiter is 00:27:42 and helium now I see all kinds of tests question 00:27:50 that you could take out that would be important 00:27:55 related to that what else the percentage 00:28:08 just take that out you could also take out Sun 00:28:13 in this blank statement here's what one would 00:28:20 is very similar to that of the blank and that's 00:28:27 composition of Jupiter is about blank percent 00:28:33 etc again all these possibilities so usually once 00:28:42 becomes very simple because you know how to do 00:28:47 comes to true/false here's the other question 00:28:51 as a little test question out of something in a 00:28:59 to be the easiest thing ever yeah find a fact 00:29:04 sentence over here you could say the chemical 00:29:11 of the Sun true or false and you're done so 00:29:16 the most fun one how do you make one of those 00:29:23 you get in trouble in life when you lie but 00:29:30 something so I want to see how good a liar you 00:29:34 been looking at and what would you change or lie 00:29:40 yeah one of the things a lot of people come up 00:29:48 not very similar to that of the Sun so it's just 00:29:53 else besides that yeah the number and listen to 00:29:59 here for a second listen to how true this sounds 00:30:03 hydrogen and helium you look at that and say okay 00:30:10 okay what else could you change right so you could 00:30:17 98 percent hydrogen and oxygen something like that 00:30:22 all of these once you again just practice them 00:30:28 most pages of most textbooks that have lots of 00:30:33 all over the place that might end up being on the 00:30:38 the whole point is you're trying to predict or 00:30:43 just a couple of minutes is to put you to work on 00:30:49 this okay and we've only looked at two sentences 00:30:57 test and you can relax totally because you're not 00:31:04 relaxed you'll ever be in your life taking a test 00:31:09 of these because we haven't read the page yet but 00:31:14 gonna give you about three or four minutes and all 00:31:19 to this and see how many of the answers to these 00:31:27 think anyone will be able to find all of them 00:31:31 would be good and the reason I want you to do this 00:31:36 kind of see how the questions were created that's 00:31:41 and 2 multiple-choice 15 questions from one page 00:31:49 because I if we had a 30 page chapter that'd be 00:31:54 to again just take this and start looking around 00:32:02 again whether you got a lot of answers or just 00:32:08 something like this you wouldn't do it the way we 00:32:15 type them up or write them out and then after 00:32:20 yourself and maybe even make copies of it and test 00:32:25 wanted you again when you ever you find an answer 00:32:30 again how you learn how to make these I'm gonna 00:32:34 never gonna need to know this ever in your life 00:32:40 want to see how you did on this the first one is 00:32:45 is Earth four is six number five is the spelling 00:32:57 is detail seven you all should have known that one 00:33:05 that Sun all right and then number eight is Saturn 00:33:11 one you should know from that's helium and then 00:33:21 that line yeah it's true it actually says that 00:33:28 what what did it say on the page yeah it says that 00:33:36 right and then how about number three anybody get 00:33:43 there on the page Jupiter's atmosphere does not 00:33:50 then under the multiple choice number one is D 00:33:56 of how many you got that was just to show you 00:34:04 so to follow up on this and for the last little 00:34:11 a couple minutes about studying thank you with a 00:34:16 sheet or did it get to everybody yeah we're good 00:34:22 I'll I'll let these teachers know how many of 00:34:29 person or a small group okay a few of you how 00:34:36 know what some people have said really helpful 00:34:44 they got together at somebody's house the snacks 00:34:53 whole house they spent half the time complaining 00:34:58 this was great and then as they walked away they 00:35:02 times it works I'm gonna give you one idea it's 00:35:07 in the past about how you can study with one other 00:35:12 let's say that your teacher today in your class 00:35:18 coming up two three four weeks down the line 00:35:24 your book along with the lectures that they do one 00:35:32 this way would be this for example let's say that 00:35:37 each other right after class on the day that this 00:35:43 take chapter eight you take nine and you take ten 00:35:49 a date to get together to study maybe a day or 00:35:55 have these three chapters right and they're a sign 00:36:02 so my job between that day and the time we meet is 00:36:08 and do one other thing with it what would that be 00:36:15 create a quiz type it up make like 10 copies 00:36:24 top and write in all the answers whether they're 00:36:30 what are they supposed to do same exact thing 00:36:35 is our deal and then when we come together for our 00:36:40 pull out copies of our little quiz that we made 00:36:47 I have to take mine and then they do the same so 00:36:54 handing out the test and then we sit there quietly 00:36:59 the little quizzes when we're done we hand them 00:37:05 their answer key and turn back into the teacher 00:37:11 back all of that's very simple to do okay once 00:37:16 our time together okay instead of just sort of 00:37:25 do or whatever which people say all the time we're 00:37:30 one and so I say this okay question number one 00:37:35 I say correct we all got it right so what do we do 00:37:46 clear on it so go to number two how about though 00:37:54 misses it and the other two get it right then 00:37:58 we discuss it one of the best ways you could ever 00:38:03 so let's say the two of us got this first one 00:38:09 later on she's gonna be the only one to miss one 00:38:16 will have their turn and we get to sort of teach 00:38:20 and we've gone through all of these then the 00:38:26 copies and people say why would you make ten 00:38:31 so that you can give each person two or three 00:38:35 again take again and so by doing this instead of 00:38:41 the whole chapters you get to split up the 00:38:47 questions and the two of them did two then all 00:38:54 keep practicing before we walked in to take the 00:39:00 show up on the real test which again would be an 00:39:04 before I go in to our study session together how 00:39:11 of it and some people say all of it they got 00:39:19 one of the three chapters and then everybody else 00:39:24 an F on any test you ever take the reason that 00:39:29 gonna take a test that they give me and the whole 00:39:34 is tomorrow or it's the next day I've studied 00:39:40 find out and that is take the test so if I don't 00:39:48 of hers and I don't even read his it's a waste 00:39:53 get like a dress rehearsal before the real test 00:40:00 reading but you only have to make a quiz out of 00:40:04 gave you how many questions were on there again it 00:40:11 looking through a chapter and trying to come up 00:40:19 time and usually all you have to do is find bold 00:40:24 you can come up with 50 questions from a chapter 00:40:29 maybe 15 or 20 and then once you end up with that 00:40:35 yourself kind of good all the way around okay 00:40:39 with a group or partner but it's worked well for 00:40:43 while they're doing that but at least they get 00:40:47 right we're done so I will contact your teachers 00:40:53 gonna talk about how to spend the last few days
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*Abstract:* This workshop addresses common challenges students face with test-taking and offers practical strategies to improve performance. The speaker identifies three primary problems: cramming, a lack of understanding about the test format, and difficulty with the subject matter or reluctance to seek help. Solutions presented include adopting a "finish reading three days before the test" rule to allow for review and rest, actively inquiring about test specifics (number of questions, time allotted, source of content) to tailor study methods, and combating the "forgetting curve" through immediate review and breaking down large study lists. The session also emphasizes the importance of utilizing available resources like tutoring and forming study groups, encouraging students to overcome pride and proactively manage their learning to achieve better grades. *Summarizing Test Preparation Strategies* * *0:00 Introduction to Test Preparation:* The workshop aims to help students overcome common test preparation issues, moving beyond simply "not studying enough." * *2:48 Problem 1: Cramming:* Many students delay studying until the night before a test, which is ineffective for large amounts of material. * *3:36 Strategy 1: Finish Reading Three Days Before Test:* The goal is to complete all assigned reading and note-taking three days prior to the exam, allowing for dedicated review. * *6:35 Importance of Review and Rest:* The two days before the test should be used for review and getting adequate sleep. A well-rested, energized brain performs optimally. * *9:28 Strategy 2: Set Up a Good Review Schedule:* Create a schedule that allocates study time proportionally to the perceived difficulty of each subject (e.g., more time for math if it's harder). * *16:53 Incorporate Study Breaks:* Short, regular breaks (e.g., 5-10 minutes every 50 minutes) are essential for the brain to process information and prevent burnout. * *18:01 Problem 2: Lack of Test Knowledge:* Students often don't know what to expect on a test, hindering effective preparation. * *18:49 Strategy 3: Ask Teachers About Test Format:* Inquire about the number of questions, the time limit, and where the questions primarily come from (textbook vs. lecture notes). * *21:10 Tailor Study Based on Question Density:* If there are few questions over many pages, focus on big concepts. If many questions over few pages, focus on details. * *26:00 Adapt to Test Pace (Sprint vs. Jog):* For fast-paced tests (many questions, little time per question), practice rapid recall. For slower tests, deeper thought is possible. * *27:40 Use Flashcards for Fast Recall:* Flashcards are an excellent tool for training quick recall of facts and definitions, especially useful for "sprint" tests. * *28:46 Balance Study Time for Content Sources:* If a test draws 50% from the textbook and 50% from lectures, study both equally, even if one takes more time. * *32:32 Problem 3: Forgetting Curve & Lack of Support:* Students rapidly forget information unless it's reinforced, and some are too proud to seek help. * *33:57 The Forgetting Curve:* Studies show people forget about 50% of new information within half an hour of learning it, and 60% within a day. * *35:50 Strategy 4: Immediate Review:* Reviewing material for 5-10 minutes immediately after reading a chapter or leaving a lecture significantly improves retention. * *39:08 Strategy 5: Rewrite Long Lists into Manageable Chunks:* Break overwhelming study guides (e.g., 183 terms) into smaller lists (e.g., 7 terms per list) to make learning less daunting and more effective. * *41:34 Strategy 6: Utilize Tutoring Services:* Overcome pride and seek help from tutors, which is often free at colleges and can significantly improve understanding and grades. * *43:52 Strategy 7: Form Study Groups:* Collaborating with peers allows for shared knowledge, mutual support, and a collective approach to understanding difficult material. I used gemini-2.5-flash-preview-05-20| input-price: 0.15 output-price: 3.5 max-context-length: 128_000 on rocketrecap dot com to summarize the transcript. Cost (if I didn't use the free tier): $0.0064 Input tokens: 21206 Output tokens: 919
Abstract:
This workshop addresses common challenges students face with test-taking and offers practical strategies to improve performance. The speaker identifies three primary problems: cramming, a lack of understanding about the test format, and difficulty with the subject matter or reluctance to seek help. Solutions presented include adopting a "finish reading three days before the test" rule to allow for review and rest, actively inquiring about test specifics (number of questions, time allotted, source of content) to tailor study methods, and combating the "forgetting curve" through immediate review and breaking down large study lists. The session also emphasizes the importance of utilizing available resources like tutoring and forming study groups, encouraging students to overcome pride and proactively manage their learning to achieve better grades.
Summarizing Test Preparation Strategies
Below, I will provide input for an example video (comprising of title, description, and transcript, in this order) and the corresponding abstract and summary I expect. Afterward, I will provide a new transcript that I want you to summarize in the same format. **Please give an abstract of the transcript and then summarize the transcript in a self-contained bullet list format.** Include starting timestamps, important details and key takeaways. Example Input: Fluidigm Polaris Part 2- illuminator and camera mikeselectricstuff 131K subscribers Subscribed 369 Share Download Clip Save 5,857 views Aug 26, 2024 Fluidigm Polaris part 1 : • Fluidigm Polaris (Part 1) - Biotech g... Ebay listings: https://www.ebay.co.uk/usr/mikeselect... Merch https://mikeselectricstuff.creator-sp... Transcript Follow along using the transcript. Show transcript mikeselectricstuff 131K subscribers Videos About Support on Patreon 40 Comments @robertwatsonbath 6 hours ago Thanks Mike. Ooof! - with the level of bodgery going on around 15:48 I think shame would have made me do a board re spin, out of my own pocket if I had to. 1 Reply @Muonium1 9 hours ago The green LED looks different from the others and uses phosphor conversion because of the "green gap" problem where green InGaN emitters suffer efficiency droop at high currents. Phosphide based emitters don't start becoming efficient until around 600nm so also can't be used for high power green emitters. See the paper and plot by Matthias Auf der Maur in his 2015 paper on alloy fluctuations in InGaN as the cause of reduced external quantum efficiency at longer (green) wavelengths. 4 Reply 1 reply @tafsirnahian669 10 hours ago (edited) Can this be used as an astrophotography camera? Reply mikeselectricstuff · 1 reply @mikeselectricstuff 6 hours ago Yes, but may need a shutter to avoid light during readout Reply @2010craggy 11 hours ago Narrowband filters we use in Astronomy (Astrophotography) are sided- they work best passing light in one direction so I guess the arrows on the filter frames indicate which way round to install them in the filter wheel. 1 Reply @vitukz 12 hours ago A mate with Channel @extractions&ire could use it 2 Reply @RobertGallop 19 hours ago That LED module says it can go up to 28 amps!!! 21 amps for 100%. You should see what it does at 20 amps! Reply @Prophes0r 19 hours ago I had an "Oh SHIT!" moment when I realized that the weird trapezoidal shape of that light guide was for keystone correction of the light source. Very clever. 6 Reply @OneBiOzZ 20 hours ago given the cost of the CCD you think they could have run another PCB for it 9 Reply @tekvax01 21 hours ago $20 thousand dollars per minute of run time! 1 Reply @tekvax01 22 hours ago "We spared no expense!" John Hammond Jurassic Park. *(that's why this thing costs the same as a 50-seat Greyhound Bus coach!) Reply @florianf4257 22 hours ago The smearing on the image could be due to the fact that you don't use a shutter, so you see brighter stripes under bright areas of the image as you still iluminate these pixels while the sensor data ist shifted out towards the top. I experienced this effect back at university with a LN-Cooled CCD for Spectroscopy. The stripes disapeared as soon as you used the shutter instead of disabling it in the open position (but fokussing at 100ms integration time and continuous readout with a focal plane shutter isn't much fun). 12 Reply mikeselectricstuff · 1 reply @mikeselectricstuff 12 hours ago I didn't think of that, but makes sense 2 Reply @douro20 22 hours ago (edited) The red LED reminds me of one from Roithner Lasertechnik. I have a Symbol 2D scanner which uses two very bright LEDs from that company, one red and one red-orange. The red-orange is behind a lens which focuses it into an extremely narrow beam. 1 Reply @RicoElectrico 23 hours ago PFG is Pulse Flush Gate according to the datasheet. Reply @dcallan812 23 hours ago Very interesting. 2x Reply @littleboot_ 1 day ago Cool interesting device Reply @dav1dbone 1 day ago I've stripped large projectors, looks similar, wonder if some of those castings are a magnesium alloy? Reply @kevywevvy8833 1 day ago ironic that some of those Phlatlight modules are used in some of the cheapest disco lights. 1 Reply 1 reply @bill6255 1 day ago Great vid - gets right into subject in title, its packed with information, wraps up quickly. Should get a YT award! imho 3 Reply @JAKOB1977 1 day ago (edited) The whole sensor module incl. a 5 grand 50mpix sensor for 49 £.. highest bid atm Though also a limited CCD sensor, but for the right buyer its a steal at these relative low sums. Architecture Full Frame CCD (Square Pixels) Total Number of Pixels 8304 (H) × 6220 (V) = 51.6 Mp Number of Effective Pixels 8208 (H) × 6164 (V) = 50.5 Mp Number of Active Pixels 8176 (H) × 6132 (V) = 50.1 Mp Pixel Size 6.0 m (H) × 6.0 m (V) Active Image Size 49.1 mm (H) × 36.8 mm (V) 61.3 mm (Diagonal), 645 1.1x Optical Format Aspect Ratio 4:3 Horizontal Outputs 4 Saturation Signal 40.3 ke− Output Sensitivity 31 V/e− Quantum Efficiency KAF−50100−CAA KAF−50100−AAA KAF−50100−ABA (with Lens) 22%, 22%, 16% (Peak R, G, B) 25% 62% Read Noise (f = 18 MHz) 12.5 e− Dark Signal (T = 60°C) 42 pA/cm2 Dark Current Doubling Temperature 5.7°C Dynamic Range (f = 18 MHz) 70.2 dB Estimated Linear Dynamic Range (f = 18 MHz) 69.3 dB Charge Transfer Efficiency Horizontal Vertical 0.999995 0.999999 Blooming Protection (4 ms Exposure Time) 800X Saturation Exposure Maximum Date Rate 18 MHz Package Ceramic PGA Cover Glass MAR Coated, 2 Sides or Clear Glass Features • TRUESENSE Transparent Gate Electrode for High Sensitivity • Ultra-High Resolution • Board Dynamic Range • Low Noise Architecture • Large Active Imaging Area Applications • Digitization • Mapping/Aerial • Photography • Scientific Thx for the tear down Mike, always a joy Reply @martinalooksatthings 1 day ago 15:49 that is some great bodging on of caps, they really didn't want to respin that PCB huh 8 Reply @RhythmGamer 1 day ago Was depressed today and then a new mike video dropped and now I’m genuinely happy to get my tear down fix 1 Reply @dine9093 1 day ago (edited) Did you transfrom into Mr Blobby for a moment there? 2 Reply @NickNorton 1 day ago Thanks Mike. Your videos are always interesting. 5 Reply @KeritechElectronics 1 day ago Heavy optics indeed... Spare no expense, cost no object. Splendid build quality. The CCD is a thing of beauty! 1 Reply @YSoreil 1 day ago The pricing on that sensor is about right, I looked in to these many years ago when they were still in production since it's the only large sensor you could actually buy. Really cool to see one in the wild. 2 Reply @snik2pl 1 day ago That leds look like from led projector Reply @vincei4252 1 day ago TDI = Time Domain Integration ? 1 Reply @wolpumba4099 1 day ago (edited) Maybe the camera should not be illuminated during readout. From the datasheet of the sensor (Onsemi): saturation 40300 electrons, read noise 12.5 electrons per pixel @ 18MHz (quite bad). quantum efficiency 62% (if it has micro lenses), frame rate 1 Hz. lateral overflow drain to prevent blooming protects against 800x (factor increases linearly with exposure time) saturation exposure (32e6 electrons per pixel at 4ms exposure time), microlens has +/- 20 degree acceptance angle i guess it would be good for astrophotography 4 Reply @txm100 1 day ago (edited) Babe wake up a new mikeselectricstuff has dropped! 9 Reply @vincei4252 1 day ago That looks like a finger-lakes filter wheel, however, for astronomy they'd never use such a large stepper. 1 Reply @MRooodddvvv 1 day ago yaaaaay ! more overcomplicated optical stuff ! 4 Reply 1 reply @NoPegs 1 day ago He lives! 11 Reply 1 reply Transcript 0:00 so I've stripped all the bits of the 0:01 optical system so basically we've got 0:03 the uh the camera 0:05 itself which is mounted on this uh very 0:09 complex 0:10 adjustment thing which obviously to set 0:13 you the various tilt and uh alignment 0:15 stuff then there's two of these massive 0:18 lenses I've taken one of these apart I 0:20 think there's something like about eight 0:22 or nine Optical elements in here these 0:25 don't seem to do a great deal in terms 0:26 of electr magnification they're obiously 0:28 just about getting the image to where it 0:29 uh where it needs to be just so that 0:33 goes like that then this Optical block I 0:36 originally thought this was made of some 0:37 s crazy heavy material but it's just 0:39 really the sum of all these Optical bits 0:41 are just ridiculously heavy those lenses 0:43 are about 4 kilos each and then there's 0:45 this very heavy very solid um piece that 0:47 goes in the middle and this is so this 0:49 is the filter wheel assembly with a 0:51 hilariously oversized steper 0:53 motor driving this wheel with these very 0:57 large narrow band filters so we've got 1:00 various different shades of uh 1:03 filters there five Al together that 1:06 one's actually just showing up a silver 1:07 that's actually a a red but fairly low 1:10 transmission orangey red blue green 1:15 there's an excess cover on this side so 1:16 the filters can be accessed and changed 1:19 without taking anything else apart even 1:21 this is like ridiculous it's like solid 1:23 aluminium this is just basically a cover 1:25 the actual wavelengths of these are um 1:27 488 525 570 630 and 700 NM not sure what 1:32 the suffix on that perhaps that's the uh 1:34 the width of the spectral line say these 1:37 are very narrow band filters most of 1:39 them are you very little light through 1:41 so it's still very tight narrow band to 1:43 match the um fluoresence of the dies 1:45 they're using in the biochemical process 1:48 and obviously to reject the light that's 1:49 being fired at it from that Illuminator 1:51 box and then there's a there's a second 1:53 one of these lenses then the actual sort 1:55 of samples below that so uh very serious 1:58 amount of very uh chunky heavy Optics 2:01 okay let's take a look at this light 2:02 source made by company Lumen Dynamics 2:04 who are now part of 2:06 excelitas self-contained unit power 2:08 connector USB and this which one of the 2:11 Cable Bundle said was a TTL interface 2:14 USB wasn't used in uh the fluid 2:17 application output here and I think this 2:19 is an input for um light feedback I 2:21 don't if it's regulated or just a measur 2:23 measurement facility and the uh fiber 2:27 assembly 2:29 Square Inlet there and then there's two 2:32 outputs which have uh lens assemblies 2:35 and this small one which goes back into 2:37 that small Port just Loops out of here 2:40 straight back in So on this side we've 2:42 got the electronics which look pretty 2:44 straightforward we've got a bit of power 2:45 supply stuff over here and we've got 2:48 separate drivers for each wavelength now 2:50 interesting this is clearly been very 2:52 specifically made for this application 2:54 you I was half expecting like say some 2:56 generic drivers that could be used for a 2:58 number of different things but actually 3:00 literally specified the exact wavelength 3:02 on the PCB there is provision here for 3:04 385 NM which isn't populated but this is 3:07 clearly been designed very specifically 3:09 so these four drivers look the same but 3:10 then there's two higher power ones for 3:12 575 and 3:14 520 a slightly bigger heat sink on this 3:16 575 section there a p 24 which is 3:20 providing USB interface USB isolator the 3:23 USB interface just presents as a comport 3:26 I did have a quick look but I didn't 3:27 actually get anything sensible um I did 3:29 dump the Pi code out and there's a few 3:31 you a few sort of commands that you 3:32 could see in text but I didn't actually 3:34 manage to get it working properly I 3:36 found some software for related version 3:38 but it didn't seem to want to talk to it 3:39 but um I say that wasn't used for the 3:41 original application it might be quite 3:42 interesting to get try and get the Run 3:44 hours count out of it and the TTL 3:46 interface looks fairly straightforward 3:48 we've got positions for six opto 3:50 isolators but only five five are 3:52 installed so that corresponds with the 3:54 unused thing so I think this hopefully 3:56 should be as simple as just providing a 3:57 ttrl signal for each color to uh enable 4:00 it a big heat sink here which is there I 4:03 think there's like a big S of metal 4:04 plate through the middle of this that 4:05 all the leads are mounted on the other 4:07 side so this is heat sinking it with a 4:09 air flow from a uh just a fan in here 4:13 obviously don't have the air flow 4:14 anywhere near the Optics so conduction 4:17 cool through to this plate that's then 4:18 uh air cooled got some pots which are 4:21 presumably power 4:22 adjustments okay let's take a look at 4:24 the other side which is uh much more 4:27 interesting see we've got some uh very 4:31 uh neatly Twisted cable assemblies there 4:35 a bunch of leads so we've got one here 4:37 475 up here 430 NM 630 575 and 520 4:44 filters and dcro mirrors a quick way to 4:48 see what's white is if we just shine 4:49 some white light through 4:51 here not sure how it is is to see on the 4:54 camera but shining white light we do 4:55 actually get a bit of red a bit of blue 4:57 some yellow here so the obstacle path 5:00 575 it goes sort of here bounces off 5:03 this mirror and goes out the 520 goes 5:07 sort of down here across here and up 5:09 there 630 goes basically straight 5:13 through 5:15 430 goes across there down there along 5:17 there and the 475 goes down here and 5:20 left this is the light sensing thing 5:22 think here there's just a um I think 5:24 there a photo diode or other sensor 5:26 haven't actually taken that off and 5:28 everything's fixed down to this chunk of 5:31 aluminium which acts as the heat 5:32 spreader that then conducts the heat to 5:33 the back side for the heat 5:35 sink and the actual lead packages all 5:38 look fairly similar except for this one 5:41 on the 575 which looks quite a bit more 5:44 substantial big spay 5:46 Terminals and the interface for this 5:48 turned out to be extremely simple it's 5:50 literally a 5V TTL level to enable each 5:54 color doesn't seem to be any tensity 5:56 control but there are some additional 5:58 pins on that connector that weren't used 5:59 in the through time thing so maybe 6:01 there's some extra lines that control 6:02 that I couldn't find any data on this uh 6:05 unit and the um their current product 6:07 range is quite significantly different 6:09 so we've got the uh blue these 6:13 might may well be saturating the camera 6:16 so they might look a bit weird so that's 6:17 the 430 6:18 blue the 575 6:24 yellow uh 6:26 475 light blue 6:29 the uh 520 6:31 green and the uh 630 red now one 6:36 interesting thing I noticed for the 6:39 575 it's actually it's actually using a 6:42 white lead and then filtering it rather 6:44 than using all the other ones are using 6:46 leads which are the fundamental colors 6:47 but uh this is actually doing white and 6:50 it's a combination of this filter and 6:52 the dichroic mirrors that are turning to 6:55 Yellow if we take the filter out and a 6:57 lot of the a lot of the um blue content 7:00 is going this way the red is going 7:02 straight through these two mirrors so 7:05 this is clearly not reflecting much of 7:08 that so we end up with the yellow coming 7:10 out of uh out of there which is a fairly 7:14 light yellow color which you don't 7:16 really see from high intensity leads so 7:19 that's clearly why they've used the 7:20 white to uh do this power consumption of 7:23 the white is pretty high so going up to 7:25 about 2 and 1 half amps on that color 7:27 whereas most of the other colors are 7:28 only drawing half an amp or so at 24 7:30 volts the uh the green is up to about 7:32 1.2 but say this thing is uh much 7:35 brighter and if you actually run all the 7:38 colors at the same time you get a fairly 7:41 reasonable um looking white coming out 7:43 of it and one thing you might just be 7:45 out to notice is there is some sort 7:46 color banding around here that's not 7:49 getting uh everything s completely 7:51 concentric and I think that's where this 7:53 fiber optic thing comes 7:58 in I'll 8:00 get a couple of Fairly accurately shaped 8:04 very sort of uniform color and looking 8:06 at What's um inside here we've basically 8:09 just got this Square Rod so this is 8:12 clearly yeah the lights just bouncing 8:13 off all the all the various sides to um 8:16 get a nice uniform illumination uh this 8:19 back bit looks like it's all potted so 8:21 nothing I really do to get in there I 8:24 think this is fiber so I have come 8:26 across um cables like this which are 8:27 liquid fill but just looking through the 8:30 end of this it's probably a bit hard to 8:31 see it does look like there fiber ends 8:34 going going on there and so there's this 8:36 feedback thing which is just obviously 8:39 compensating for the any light losses 8:41 through here to get an accurate 8:43 representation of uh the light that's 8:45 been launched out of these two 8:47 fibers and you see uh 8:49 these have got this sort of trapezium 8:54 shape light guides again it's like a 8:56 sort of acrylic or glass light guide 9:00 guess projected just to make the right 9:03 rectangular 9:04 shape and look at this Center assembly 9:07 um the light output doesn't uh change 9:10 whether you feed this in or not so it's 9:11 clear not doing any internal Clos Loop 9:14 control obviously there may well be some 9:16 facility for it to do that but it's not 9:17 being used in this 9:19 application and so this output just 9:21 produces a voltage on the uh outle 9:24 connector proportional to the amount of 9:26 light that's present so there's a little 9:28 diffuser in the back there 9:30 and then there's just some kind of uh 9:33 Optical sensor looks like a 9:35 chip looking at the lead it's a very 9:37 small package on the PCB with this lens 9:40 assembly over the top and these look 9:43 like they're actually on a copper 9:44 Metalized PCB for maximum thermal 9:47 performance and yeah it's a very small 9:49 package looks like it's a ceramic 9:51 package and there's a thermister there 9:53 for temperature monitoring this is the 9:56 475 blue one this is the 520 need to 9:59 Green which is uh rather different OB 10:02 it's a much bigger D with lots of bond 10:04 wise but also this looks like it's using 10:05 a phosphor if I shine a blue light at it 10:08 lights up green so this is actually a 10:10 phosphor conversion green lead which 10:12 I've I've come across before they want 10:15 that specific wavelength so they may be 10:17 easier to tune a phosphor than tune the 10:20 um semiconductor material to get the uh 10:23 right right wavelength from the lead 10:24 directly uh red 630 similar size to the 10:28 blue one or does seem to have a uh a 10:31 lens on top of it there is a sort of red 10:33 coloring to 10:35 the die but that doesn't appear to be 10:38 fluorescent as far as I can 10:39 tell and the white one again a little 10:41 bit different sort of much higher 10:43 current 10:46 connectors a makeer name on that 10:48 connector flot light not sure if that's 10:52 the connector or the lead 10:54 itself and obviously with the phosphor 10:56 and I'd imagine that phosphor may well 10:58 be tuned to get the maximum to the uh 5 11:01 cenm and actually this white one looks 11:04 like a St fairly standard product I just 11:06 found it in Mouse made by luminous 11:09 devices in fact actually I think all 11:11 these are based on various luminous 11:13 devices modules and they're you take 11:17 looks like they taking the nearest 11:18 wavelength and then just using these 11:19 filters to clean it up to get a precise 11:22 uh spectral line out of it so quite a 11:25 nice neat and um extreme 11:30 bright light source uh sure I've got any 11:33 particular use for it so I think this 11:35 might end up on 11:36 eBay but uh very pretty to look out and 11:40 without the uh risk of burning your eyes 11:43 out like you do with lasers so I thought 11:45 it would be interesting to try and 11:46 figure out the runtime of this things 11:48 like this we usually keep some sort 11:49 record of runtime cuz leads degrade over 11:51 time I couldn't get any software to work 11:52 through the USB face but then had a 11:54 thought probably going to be writing the 11:55 runtime periodically to the e s prom so 11:58 I just just scope up that and noticed it 12:00 was doing right every 5 minutes so I 12:02 just ran it for a while periodically 12:04 reading the E squ I just held the pick 12:05 in in reset and um put clip over to read 12:07 the square prom and found it was writing 12:10 one location per color every 5 minutes 12:12 so if one color was on it would write 12:14 that location every 5 minutes and just 12:16 increment it by one so after doing a few 12:18 tests with different colors of different 12:19 time periods it looked extremely 12:21 straightforward it's like a four bite 12:22 count for each color looking at the 12:24 original data that was in it all the 12:26 colors apart from Green were reading 12:28 zero and the green was reading four 12:30 indicating a total 20 minutes run time 12:32 ever if it was turned on run for a short 12:34 time then turned off that might not have 12:36 been counted but even so indicates this 12:37 thing wasn't used a great deal the whole 12:40 s process of doing a run can be several 12:42 hours but it'll only be doing probably 12:43 the Imaging at the end of that so you 12:46 wouldn't expect to be running for a long 12:47 time but say a single color for 20 12:50 minutes over its whole lifetime does 12:52 seem a little bit on the low side okay 12:55 let's look at the camera un fortunately 12:57 I managed to not record any sound when I 12:58 did this it's also a couple of months 13:00 ago so there's going to be a few details 13:02 that I've forgotten so I'm just going to 13:04 dub this over the original footage so um 13:07 take the lid off see this massive great 13:10 heat sink so this is a pel cool camera 13:12 we've got this blower fan producing a 13:14 fair amount of air flow through 13:16 it the connector here there's the ccds 13:19 mounted on the board on the 13:24 right this unplugs so we've got a bit of 13:27 power supply stuff on here 13:29 USB interface I think that's the Cyprus 13:32 microcontroller High speeded USB 13:34 interface there's a zyink spon fpga some 13:40 RAM and there's a couple of ATD 13:42 converters can't quite read what those 13:45 those are but anal 13:47 devices um little bit of bodgery around 13:51 here extra decoupling obviously they 13:53 have having some noise issues this is 13:55 around the ram chip quite a lot of extra 13:57 capacitors been added there 13:59 uh there's a couple of amplifiers prior 14:01 to the HD converter buffers or Andor 14:05 amplifiers taking the CCD 14:08 signal um bit more power spy stuff here 14:11 this is probably all to do with 14:12 generating the various CCD bias voltages 14:14 they uh need quite a lot of exotic 14:18 voltages next board down is just a 14:20 shield and an interconnect 14:24 boardly shielding the power supply stuff 14:26 from some the more sensitive an log 14:28 stuff 14:31 and this is the bottom board which is 14:32 just all power supply 14:34 stuff as you can see tons of capacitors 14:37 or Transformer in 14:42 there and this is the CCD which is a uh 14:47 very impressive thing this is a kf50 100 14:50 originally by true sense then codec 14:53 there ON 14:54 Semiconductor it's 50 megapixels uh the 14:58 only price I could find was this one 15:00 5,000 bucks and the architecture you can 15:03 see there actually two separate halves 15:04 which explains the Dual AZ converters 15:06 and two amplifiers it's literally split 15:08 down the middle and duplicated so it's 15:10 outputting two streams in parallel just 15:13 to keep the bandwidth sensible and it's 15:15 got this amazing um diffraction effects 15:18 it's got micro lenses over the pixel so 15:20 there's there's a bit more Optics going 15:22 on than on a normal 15:25 sensor few more bodges on the CCD board 15:28 including this wire which isn't really 15:29 tacked down very well which is a bit uh 15:32 bit of a mess quite a few bits around 15:34 this board where they've uh tacked 15:36 various bits on which is not super 15:38 impressive looks like CCD drivers on the 15:40 left with those 3 ohm um damping 15:43 resistors on the 15:47 output get a few more little bodges 15:50 around here some of 15:52 the and there's this separator the 15:54 silica gel to keep the moisture down but 15:56 there's this separator that actually 15:58 appears to be cut from piece of 15:59 antistatic 16:04 bag and this sort of thermal block on 16:06 top of this stack of three pel Cola 16:12 modules so as with any Stacks they get 16:16 um larger as they go back towards the 16:18 heat sink because each P's got to not 16:20 only take the heat from the previous but 16:21 also the waste heat which is quite 16:27 significant you see a little temperature 16:29 sensor here that copper block which 16:32 makes contact with the back of the 16:37 CCD and this's the back of the 16:40 pelas this then contacts the heat sink 16:44 on the uh rear there a few thermal pads 16:46 as well for some of the other power 16:47 components on this 16:51 PCB okay I've connected this uh camera 16:54 up I found some drivers on the disc that 16:56 seem to work under Windows 7 couldn't 16:58 get to install under Windows 11 though 17:01 um in the absence of any sort of lens or 17:03 being bothered to the proper amount I've 17:04 just put some f over it and put a little 17:06 pin in there to make a pinhole lens and 17:08 software gives a few options I'm not 17:11 entirely sure what all these are there's 17:12 obviously a clock frequency 22 MHz low 17:15 gain and with PFG no idea what that is 17:19 something something game programmable 17:20 Something game perhaps ver exposure 17:23 types I think focus is just like a 17:25 continuous grab until you tell it to 17:27 stop not entirely sure all these options 17:30 are obviously exposure time uh triggers 17:33 there ex external hardware trigger inut 17:35 you just trigger using a um thing on 17:37 screen so the resolution is 8176 by 17:40 6132 and you can actually bin those 17:42 where you combine multiple pixels to get 17:46 increased gain at the expense of lower 17:48 resolution down this is a 10sec exposure 17:51 obviously of the pin hole it's very uh 17:53 intensitive so we just stand still now 17:56 downloading it there's the uh exposure 17:59 so when it's 18:01 um there's a little status thing down 18:03 here so that tells you the um exposure 18:07 [Applause] 18:09 time it's this is just it 18:15 downloading um it is quite I'm seeing 18:18 quite a lot like smearing I think that I 18:20 don't know whether that's just due to 18:21 pixels overloading or something else I 18:24 mean yeah it's not it's not um out of 18:26 the question that there's something not 18:27 totally right about this camera 18:28 certainly was bodge wise on there um I 18:31 don't I'd imagine a camera like this 18:32 it's got a fairly narrow range of 18:34 intensities that it's happy with I'm not 18:36 going to spend a great deal of time on 18:38 this if you're interested in this camera 18:40 maybe for astronomy or something and 18:42 happy to sort of take the risk of it may 18:44 not be uh perfect I'll um I think I'll 18:47 stick this on eBay along with the 18:48 Illuminator I'll put a link down in the 18:50 description to the listing take your 18:52 chances to grab a bargain so for example 18:54 here we see this vertical streaking so 18:56 I'm not sure how normal that is this is 18:58 on fairly bright scene looking out the 19:02 window if I cut the exposure time down 19:04 on that it's now 1 second 19:07 exposure again most of the image 19:09 disappears again this is looks like it's 19:11 possibly over still overloading here go 19:14 that go down to say say quarter a 19:16 second so again I think there might be 19:19 some Auto gain control going on here um 19:21 this is with the PFG option let's try 19:23 turning that off and see what 19:25 happens so I'm not sure this is actually 19:27 more streaking or which just it's 19:29 cranked up the gain all the dis display 19:31 gray scale to show what um you know the 19:33 range of things that it's captured 19:36 there's one of one of 12 things in the 19:38 software there's um you can see of you 19:40 can't seem to read out the temperature 19:42 of the pelta cooler but you can set the 19:44 temperature and if you said it's a 19:46 different temperature you see the power 19:48 consumption jump up running the cooler 19:50 to get the temperature you requested but 19:52 I can't see anything anywhere that tells 19:54 you whether the cool is at the at the 19:56 temperature other than the power 19:57 consumption going down and there's no 19:59 temperature read out 20:03 here and just some yeah this is just 20:05 sort of very basic software I'm sure 20:07 there's like an API for more 20:09 sophisticated 20:10 applications but so if you know anything 20:12 more about these cameras please um stick 20:14 in the 20:15 comments um incidentally when I was 20:18 editing I didn't notice there was a bent 20:19 pin on the um CCD but I did fix that 20:22 before doing these tests and also 20:24 reactivated the um silica gel desicant 20:26 cuz I noticed it was uh I was getting 20:28 bit of condensation on the window but um 20:31 yeah so a couple of uh interesting but 20:34 maybe not particularly uh useful pieces 20:37 of Kit except for someone that's got a 20:38 very specific use so um I'll stick a 20:42 I'll stick these on eBay put a link in 20:44 the description and say hopefully 20:45 someone could actually make some uh good 20:47 use of these things Example Output: **Abstract:** This video presents Part 2 of a teardown focusing on the optical components of a Fluidigm Polaris biotechnology instrument, specifically the multi-wavelength illuminator and the high-resolution CCD camera. The Lumen Dynamics illuminator unit is examined in detail, revealing its construction using multiple high-power LEDs (430nm, 475nm, 520nm, 575nm, 630nm) combined via dichroic mirrors and filters. A square fiber optic rod is used to homogenize the light. A notable finding is the use of a phosphor-converted white LED filtered to achieve the 575nm output. The unit features simple TTL activation for each color, conduction cooling, and internal homogenization optics. Analysis of its EEPROM suggests extremely low operational runtime. The camera module teardown showcases a 50 Megapixel ON Semiconductor KAF-50100 CCD sensor with micro-lenses, cooled by a multi-stage Peltier stack. The control electronics include an FPGA and a USB interface. Significant post-manufacturing modifications ("bodges") are observed on the camera's circuit boards. Basic functional testing using vendor software and a pinhole lens confirms image capture but reveals prominent vertical streaking artifacts, the cause of which remains uncertain (potential overload, readout artifact, or fault). **Exploring the Fluidigm Polaris: A Detailed Look at its High-End Optics and Camera System** * **0:00 High-End Optics:** The system utilizes heavy, high-quality lenses and mirrors for precise imaging, weighing around 4 kilos each. * **0:49 Narrow Band Filters:** A filter wheel with five narrow band filters (488, 525, 570, 630, and 700 nm) ensures accurate fluorescence detection and rejection of excitation light. * **2:01 Customizable Illumination:** The Lumen Dynamics light source offers five individually controllable LED wavelengths (430, 475, 520, 575, 630 nm) with varying power outputs. The 575nm yellow LED is uniquely achieved using a white LED with filtering. * **3:45 TTL Control:** The light source is controlled via a simple TTL interface, enabling easy on/off switching for each LED color. * **12:55 Sophisticated Camera:** The system includes a 50-megapixel Kodak KAI-50100 CCD camera with a Peltier cooling system for reduced noise. * **14:54 High-Speed Data Transfer:** The camera features dual analog-to-digital converters to manage the high data throughput of the 50-megapixel sensor, which is effectively two 25-megapixel sensors operating in parallel. * **18:11 Possible Issues:** The video creator noted some potential issues with the camera, including image smearing. * **18:11 Limited Dynamic Range:** The camera's sensor has a limited dynamic range, making it potentially challenging to capture scenes with a wide range of brightness levels. * **11:45 Low Runtime:** Internal data suggests the system has seen minimal usage, with only 20 minutes of recorded runtime for the green LED. * **20:38 Availability on eBay:** Both the illuminator and camera are expected to be listed for sale on eBay. Here is the real transcript. Please summarize it: 00:00:00 workshop is to say this some students are good 00:00:27 tests and then they usually perform lower than 00:00:36 come from here out on the paper very well part of 00:00:43 doesn't prepare well for tests so when they go 00:00:49 to score lower the other reason is because even 00:00:56 takers so when the teacher gives them the test 00:01:02 so the next two workshops will be about the test 00:01:07 going to make one statement to start with and then 00:01:13 to use as an outline today and the one statement 00:01:17 going to say it anyway and that is the number 00:01:23 because they don't study how's that for an easy 00:01:30 haven't even opened their book or they haven't 00:01:37 because they didn't prepare but there are other 00:01:43 all these problems up here people look at this 00:01:47 the solutions they're coming today but there 00:01:52 not to do well on tests in terms of how they 00:01:58 today I'm three of them in particular and then 00:02:03 I'm going to give you now is an outline of 00:02:08 notes to rectly on here if you would like some 00:02:15 like to write on notebook paper either ones okay 00:02:31 problems on the back along with solutions so I 00:02:39 about bad things but I was going to talk about 00:02:43 first problem the one that goes in this little 00:02:48 big problem for a lot of people that they have to 00:02:54 waiting and waiting until the very last night or 00:03:05 have a very small quiz that covers a tiny amount 00:03:13 doing this but if it's a test and it covers a 00:03:19 almost a guarantee of getting a bad grade and so 00:03:25 about how to fix this so that you don't get 00:03:31 bad habit how to break it and those are listed 00:03:36 finish three days before and I want to ask you a 00:03:42 think this means finish what three days before 00:03:48 but it's actually not studying it's something 00:03:55 closer to what I'm going for what we're after for 00:04:03 reading that a teacher has assigned to you to get 00:04:13 you go to bed three days before the test now some 00:04:20 hours before so those are professional Crammers 00:04:27 you this what's today's date we're going to use 00:04:33 date which is the ninth your teacher gives you an 00:04:43 going to have a big test really big test three 00:04:48 day of your test they also tell you that you're 00:04:55 that's four chapters that's a lot of material 00:05:03 you if this is your big problem on what day are 00:05:10 the the test is on 30th and you are a professional 00:05:23 at right now so what win would that person do 00:05:28 yeah yeah it's so we say the 29th is when they 00:05:38 but they are a Crammer so they wait till the last 00:05:45 college textbooks chapters are 20 30 pages maybe 00:05:53 that's a hundred and twenty pages in a textbook 00:05:58 wait till the day before is like eating a whole 00:06:07 body would not like that and so the same thing 00:06:12 is asking you to do this little technique is to 00:06:18 before this test would be the 27th and so the goal 00:06:28 is to finish all the reading that you have to 00:06:35 that you have two more days the 28th and the 29th 00:06:43 the two things that are really helpful you to 00:06:49 so want to see if you can figure those out this is 00:06:56 bit what what is one R what should you do the 00:07:00 kind of easy and I'm going to talk more about that 00:07:06 reread is a good idea that's actually part of the 00:07:13 the other R doesn't have anything to do with this 00:07:17 that will help you do better on the test when 00:07:28 takes everything that you've already learned 00:07:33 organized in your brain so it's ready to come out 00:07:40 do especially when it comes to a big test like 00:07:45 work to do a lot of people do this really well 00:07:53 all so they stay up really late and they get 00:08:01 all night and they're drinking coffee or 5-hour 00:08:07 things trying to stay awake but then when you 00:08:11 the questions and you start searching through 00:08:15 sleep your brain doesn't work very well it's 00:08:21 people do that and then other people are the 00:08:27 professional wrestlers they always get plenty of 00:08:33 that's not so good so if you actually treat both 00:08:41 walk in to take the test here's what happens you 00:08:47 couple days reviewing you've gotten to bed at a 00:08:52 when you walk in to take the test your brain is 00:08:57 energy that's the best combination I know to do 00:09:06 this semester where you have a quiz every week 00:09:10 when you have a test every three weeks four weeks 00:09:17 till the very last minute to do the reading and 00:09:23 it helps a lot it takes a lot of stress away as 00:09:28 number one and then the second one says to set up 00:09:35 exercise with you that is going to hopefully show 00:09:42 set up a good schedule to review so I'm actually 00:09:49 here and I want you to look at this paragraph at 00:09:54 of set it up or explain it for you and then have 00:10:01 this woman Susan is going to have a very difficult 00:10:11 of her classes history psychology and math that 00:10:18 out a review schedule that will enable her to be 00:10:24 she feels that the math test will be the hardest 00:10:30 will be probably not easy but at least the least 00:10:38 to give you a minute or two to look at this is I 00:10:43 page when you first look at them they look the 00:10:48 them very carefully and try to pick the schedule 00:10:54 and when you've decided you can put a little 00:10:59 one or two or three but I don't want you to do it 00:11:03 look at it and just see what you can notice there 00:11:50 I know sometimes it's hard to figure 00:11:56 out but I want to want to see how well you can do 00:12:10 for it you have one in three chance of getting 00:12:18 go ahead and mark something one two or three okay 00:12:29 and go through these one at a time and point 00:12:33 first schedule that's considered not good in fact 00:12:40 this you're out already that's okay is schedule 00:12:46 yeah it's just too much this poor person will kill 00:12:56 total of ten hours of studying during the day and 00:13:02 hours and unless you're the most unusual person 00:13:10 and get a lot done it's just too much so schedule 00:13:17 one that's considered not quite as good for two 00:13:22 you got the right answer even if you were just 00:13:29 to ask you what do you notice in schedule number 00:13:34 two even notice yes oh that's very good that's the 00:13:43 is this person supposed to be doing at one o'clock 00:13:48 don't have a class on schedule three and that's 00:13:55 habits that a student could ever develop which 00:14:00 you only did that one time in all of college you 00:14:08 once start doing it all the time it just becomes 00:14:15 is well I know I should be going to that class but 00:14:22 need to study for that one so they decide which 00:14:27 surprise you or not but I've actually had students 00:14:34 before class when I'm getting ready to take role 00:14:39 me and they say hi I just want to let you know I'm 00:14:44 everything okay you know I'm just concerned do you 00:14:51 here's what they say they say no I'm fine I just 00:14:57 and I don't have it done so I'm going to go during 00:15:02 is always you know you're adults you can come to 00:15:09 to call your parents or anything like that this 00:15:13 tell me that and then they said but it's okay 00:15:18 class and I can just get the notes from them well 00:15:24 people's notes they're scary they may be the only 00:15:31 and so I think you know there's no substitute 00:15:35 yourself so if you do that if you skip one class 00:15:41 do a good job with your time management okay the 00:15:47 paragraph and I don't know if anybody spotted this 00:15:52 quite as good is the hint is up in the paragraph 00:16:01 and look at the study hours okay that's right so 00:16:16 of studying you know six hours of studying in one 00:16:20 so six sounds a lot better than ten but look at 00:16:26 for each subject well that doesn't make sense 00:16:32 thinks math will be a lot harder than the other 00:16:37 there are still six hours of studying but 00:16:41 to one for the easiest one and so it's just a 00:16:47 time now one last thing about this I hope you 00:16:53 look at schedule two which is the best one you 00:16:59 to review or study math from 8:00 to 11:00 in 00:17:06 what it says so does that mean that they're 00:17:10 get up at eleven when they're done yeah the 00:17:17 but what are they supposed to be doing every 00:17:21 five ten fifteen minutes as long as your break 00:17:26 ten minutes and take a 15-minute break that's 00:17:32 your body needs that your brain needs that and 00:17:38 some more then breaks are much better than 00:17:42 study so these are concepts again related to 00:17:48 first problem is trying to avoid cramming and 00:17:55 higher but there's another problem that a lot of 00:18:01 this is the second problem is lack of knowledge 00:18:10 I don't mean lack of knowledge of the subject area 00:18:20 test is going to be like and all of you I think 00:18:26 about an upcoming test they don't give you a study 00:18:33 what it will be like they just say go and figure 00:18:39 they tell you exactly what to study well if you 00:18:44 the page these are three among several that are 00:18:50 ahead of the test as possible I don't mean five 00:18:56 two weeks before because actually knowing the 00:19:00 you study and get you a better grade so I want 00:19:05 the way the next few minutes I'm going to write 00:19:11 look like a math workshop and if you're not a 00:19:15 of follow anyway don't let the numbers scare you 00:19:21 or two weeks before a test and you ask them the 00:19:27 be on the test that we have some students when 00:19:33 me and say what difference does it make if you 00:19:37 study so why would that be important to know so 00:19:42 teacher teacher number one how many questions are 00:19:49 50 questions and we'll just say that they're 00:19:56 you look in your textbook and you find out that 00:20:02 a lot okay the math on this since 50 is half of 00:20:11 that we're looking at right here the teacher 00:20:16 two pages in the book okay that's what that means 00:20:22 to this one let's say that you asked your teacher 00:20:28 you look in your book and that's fifty pages of 00:20:34 two questions for every page okay well again 00:20:41 is twice as much as 50 it's like two to one you 00:20:52 out that the teacher is going to ask you one 00:20:59 think about two pages of a textbook open and you 00:21:05 a teacher could find from all of that they could 00:21:10 they're only going to ask you one how do all 00:21:16 they're going to ask you is something big like 00:21:22 wanted to ask you little questions they would 00:21:28 like this I think usually basically the way that 00:21:35 then you go back and try to make sure you learn 00:21:39 so instead of having one question from two pages 00:21:47 that's four questions instead of one what 00:21:54 the test if there if there are a lot of questions 00:22:02 ideas and big things what are they going to ask 00:22:11 I'm trying to show you about this cramming as 00:22:18 ever when you have a test but which of these two 00:22:23 two why is that it's because when you cram a huge 00:22:32 night before a test what usually sticks there if 00:22:37 out the other and is lost forever all the little 00:22:45 teacher is going to ask you a lot of questions on 00:22:51 should have is they're going to ask me a lot of 00:22:55 before I'm never going to be able to get all 00:23:00 start early and learn a little at a time and that 00:23:05 that's the first question the second one is very 00:23:11 here sort of a little free piece of advice this 00:23:19 okay so that's what that's what that means I 00:23:24 and you're taking a test and you're in the middle 00:23:31 of a sudden somebody gets up and walks up to the 00:23:35 and then about one minute later somebody else 00:23:40 you yeah it usually makes people really nervous 00:23:47 okay but look at that genius who just walked up 00:23:53 and feeling like they have to rush well I want to 00:23:58 the amount of time it takes a student to finish 00:24:04 they do well or not sometimes the first people 00:24:12 first people to finish a test get the worst grades 00:24:18 a test really fast ABC CB ABC and then you hand 00:24:27 and you had got the worst grade in the class 00:24:31 last students and I just wanted to share this 00:24:36 she was in college was a great student and she 00:24:43 her grade point average was like 3.8 or 3.9 00:24:49 me that when she was in college almost every time 00:24:54 three or four students left in the room at the 00:25:00 attitude was the teacher said I have an hour I'm 00:25:07 if other people left she just concentrated and 00:25:13 every minute that she could get so from now on if 00:25:19 the test and you're still working on it instead 00:25:24 but look at them as they walk out the door and 00:25:29 all the time and that's the total opposite of 00:25:36 do with this but that's the sort of extra okay 00:25:40 teacher number one says you have an hour if 00:25:47 many questions there are and there are 30 okay 00:25:54 as much as 30 so that would mean that you have 00:26:00 just assuming this is all multiple choice and 00:26:07 timed it you probably don't know but if you had 00:26:12 as good as it's ever going to get okay because 00:26:18 when you know that this is going to be your 00:26:22 way is fine but how about if you have a teacher a 00:26:28 more second and you have 60 questions to answer 00:26:36 like the opposite of this would be two questions 00:26:42 for each question so on this particular test here 00:26:50 each question yeah probably once how many times 00:26:57 once you can't just sit there and think ah yes I 00:27:04 is like a slow jog this is like sprint have to go 00:27:13 material you have to know it fast and so this 00:27:18 think of a little study tool that you could use 00:27:24 it's a really small thing that some of you have 00:27:31 it's something small and it has two sides to it 00:27:40 flashcards okay flashcards would be good to study 00:27:53 facts to learn but it's especially good for this 00:27:59 mean yeah flash you know like a flashbulb like 00:28:05 who has ever used flash cards to learn vocabulary 00:28:11 the definition on the other and you have a stack 00:28:16 and you test yourself you're kind of slow because 00:28:21 you've gone through them several times pretty 00:28:26 can turn the card so you're training yourself to 00:28:31 no thinking no looking up or whatever but fast and 00:28:37 type of test so that's why that's a really good 00:28:41 and then we'll move a little more quickly through 00:28:46 almost the most important one on here and that's 00:28:53 for a second most of you have been here before 00:29:00 is going to come around now name ID number and 00:29:05 teacher about extra credit so when this gets 00:29:09 going to the back that would be good okay text 00:29:13 all the points on the test come from the textbook 00:29:20 okay that's what that means well here's what 00:29:24 as a teacher I have had students before come to 00:29:30 a student comes and says I'm really kind of 00:29:38 they say well I just got back a test in one of my 00:29:43 D or an F well that's not happy news or anything 00:29:50 you think teachers usually assume if a student 00:29:58 study they didn't even try and sometimes that's 00:30:04 sometimes a person can get a very bad grade and 00:30:11 who gets an A or a B and that doesn't seem right 00:30:19 should get a good result well here's the number 00:30:25 I asked the student so you studied really hard for 00:30:32 or you got an F yep so I asked them the question 00:30:38 the test came from the textbook and how much from 00:30:44 that question what answer you think they give me 00:30:49 well it's too late for that test you know it's 00:30:55 are usually creatures of habit they do things the 00:31:00 a little field trip and go talk to your teacher 00:31:04 got back how much came from each and oftentimes 00:31:11 like this the teacher said that it was about 50/50 00:31:16 lectures and then I asked them the big question 00:31:21 I know it's hard to know for sure but what percent 00:31:27 and what percent did you spend studying the notes 00:31:33 well I probably spent about 90% on the book and 00:31:39 tells me pretty much everything I need to know 00:31:46 hard but the way they studied was not even close 00:31:52 time for example that 3/4 of all the points on the 00:31:59 book or the other way around that should be very 00:32:05 that much time on each one most people have to 00:32:10 because it takes longer to read but I'm talking 00:32:15 those things how do you do it and you want to try 00:32:21 be and if you do that usually your grade will be 00:32:26 more main topic to cover and then a really quick 00:32:32 this I'm going to actually draw something really 00:32:41 have on your paper and my favorite way of saying 00:32:48 never had a student in all the years that I've 00:33:01 have coming up one of their classes the teacher 00:33:05 say that it's always are you kidding how can I 00:33:12 I'm going to give you is something that I think 00:33:19 look at your your paper there it talks about the 00:33:25 going to kind of draw a quick version of it here 00:33:32 might be helpful so I'm actually going to have you 00:33:38 see a dot on your line that's across from the 50 00:33:44 so this one that's across from the 50 you can 00:33:50 then the dot that's across from the 40 you can 00:33:57 that I'll explain the the meaning of this this 00:34:07 to do with a lot of studies with college students 00:34:13 close a book after you've been reading it and you 00:34:19 lecture do you remember a hundred percent of what 00:34:25 it etc that's what this is and then this is the 00:34:32 the book or since you walked out of the class 00:34:37 the average person ends up forgetting half of what 00:34:47 after just a half hour so that's quick forgetting 00:34:54 remember 40% so the other 60% are gone forever 00:35:02 into a week it's still kind of dropping but very 00:35:10 happens in the first hour after you're exposed to 00:35:17 student because this is like a roller coaster drop 00:35:23 like that you want to be able to remember and 00:35:27 can fix this so it doesn't happen now I wish 00:35:34 to remember a hundred percent of what you just 00:35:38 forever that would be good I don't know how to 00:35:45 if I could figure that out but what I have to 00:35:49 to teach you a way that you can actually have 00:35:55 where you remember them a lot longer you hold on 00:36:02 there are two suggestions I have the first one 00:36:07 I probably should have had you right up here in 00:36:13 the brain works without immediate review so if at 00:36:23 you finish reading a textbook if you don't get 00:36:28 minutes and review it you'll always remember more 00:36:34 list you have a couple of other ideas and they 00:36:41 number and rewrite long lists so most of the rest 00:36:46 I said I'll just get to the last part quickly at 00:36:50 you to remember this is the result of a whole 00:36:56 and that is this they tried to figure out when 00:37:01 of definitions or other facts how many different 00:37:07 and remember them for a long time the answer which 00:37:14 this is another reason why cramming doesn't work 00:37:22 you could learn seven things at one sitting at 00:37:28 that's true then there's a problem and that is I 00:37:37 happen in college but some teachers do thing to 00:37:43 study guide a week before the test or two weeks 00:37:49 the study guide looks like it's a list of all the 00:37:55 to know for the test so that all looks good right 00:38:02 on and on and on the back and it's a scary looking 00:38:14 a study guide just like this that she had gotten 00:38:21 it was the front and back and I thought that's 00:38:25 that I could tell all my students forever here's 00:38:31 a hundred and eighty three and the teacher handed 00:38:40 weekend and everybody is just standing there 00:38:44 kidding nobody can learn that much it's scary 00:38:51 guide and you're just thinking oh there's no way 00:38:56 away and drop the class that's not the best choice 00:39:02 of that in there so that I can learn it for the 00:39:08 comes in which is rewrite long lists and so what 00:39:14 long list and you would take a sheet of paper and 00:39:20 terms on there and how many would you write seven 00:39:28 have to be exactly seven but you would actually 00:39:32 you chop up the giant list into a bunch of little 00:39:41 this stack of lists here's the one on top this is 00:39:47 your attitude going to be toward learning this 00:39:54 words College probably is not for you seven you 00:40:04 now just give me ten minutes I can learn it right 00:40:08 that there are other lists underneath yes but 00:40:12 learn these then you review them then you take 00:40:17 review them again turn the page learn the next 00:40:22 you look and you realize I learned pretty much all 00:40:29 you almost feel defeated before you start if you 00:40:36 do that and so your whole attitude gets better 00:40:41 know it requires you to use a little bit of paper 00:40:46 you want to try to save some but this really works 00:40:51 if you look at something and your first thought 00:40:56 to happen you're never going to learn it but if 00:41:00 know there are other ones but I can do that then 00:41:04 at how much you actually learn okay so that's 00:41:09 problem just a couple more minutes for this one 00:41:13 this is a big problem for some people so problem 00:41:19 this is my I guess favorite way to say it and 00:41:25 is sometimes you're in a class that's difficult 00:41:38 people for example with number one where it says 00:41:46 though it could be other things too is tutoring 00:41:53 at this college yeah it's right no it's actually 00:42:02 flight of stairs and then down long haul and all 00:42:08 up to the top of the stairs there's a room right 00:42:13 there that's where tutors are available if you 00:42:18 a class like a private tutor you would go broke 00:42:24 fifty dollars an hour you know who can pay that 00:42:30 you know with all the fees and everything that 00:42:35 one time four times every week all semester you 00:42:43 tutoring center doesn't have tutoring in every 00:42:49 in a situation where you're struggling at the 00:42:54 is going to be a hard class it's good to run 00:42:59 an appointment with a tutor if they have one in 00:43:03 one of the reasons I put pride here is that I've 00:43:08 semester we're about halfway through the semester 00:43:12 it's killing me and I said yeah biology is a hard 00:43:18 some guidance and they say no I haven't and I say 00:43:25 so now you know you can but then here's the other 00:43:31 and so why are you embarrassed well because when 00:43:37 means I can't do it myself and some people say no 00:43:44 and then they get bad grades and they don't sleep 00:43:48 advantage of it okay and then the other one is 00:43:53 want to just mention for about two minutes and 00:43:58 like some of you I didn't really like studying 00:44:03 felt like I could do that better but even though 00:44:09 were probably I don't know five or six times 00:44:14 small group that studied but I actually formed it 00:44:20 about the class and we got together once a week 00:44:27 the reason I did that even though I don't like 00:44:32 figure that everything that I don't understand in 00:44:39 and be able to help me some things they don't 00:44:43 it's like taking all our brains and putting them 00:44:48 formed a study group I know that my grade in the 00:44:54 if I had just sat at home trying to figure it 00:44:59 bit of lack of pride to say I can't really 00:45:05 people just like with tutoring but you might 00:45:08 help that you need because again you want to 00:45:13 at this again I always want to make sure I can 00:45:18 email all your teachers later next week again 00:45:24 going to talk about general ideas and then about 00:45:30 so hope to see you then thanks for coming today
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*Abstract:* Scott Bruckner from the 90H department presents practical test-taking strategies for college students, specifically targeting multiple-choice exams. The workshop emphasizes the importance of pre-test planning, including a quick test preview and calculating time per question, to optimize pacing and reduce anxiety. The core methodology, termed the "Not Multiple Choice" or "Two-Handed" method, instructs students to cover answer choices and recall the answer independently before revealing the options. This technique aims to prevent manipulation by distractors and foster genuine recall. Bruckner advocates for a strategic approach of tackling easy questions first, allowing the brain a "mental warm-up" period, and returning to more challenging questions later. This iterative process, likened to a computer's background processing or an "old car" warming up, helps build confidence and often makes previously difficult questions more accessible. The strategies also cover how to approach "all of the above" and "except" questions, and stress the critical importance of accurate scantron bubbling. Ultimately, these methods are designed to help students, especially slower test-takers, maximize their scores by maintaining composure, improving focus, and efficiently navigating the exam under pressure. *Summarizing Test-Taking Strategies for College Exams* * *0:00 Introduction to Test-Taking Workshops:* Scott Bruckner of the 90H department introduces upcoming workshops designed to help students improve as learners and test-takers. * *0:08 Focus on Multiple-Choice Finals:* The workshop specifically addresses strategies for college finals with multiple-choice questions, noting this is the most common test format in higher education. * *0:21 Strategies for Studied Material:* The presenter emphasizes that these strategies are for students who have already studied, aiming to help them effectively transfer their knowledge onto the test and start strong. * *0:33 Quick Test Preview:* Before beginning, students should take a few seconds to preview the entire test, noting the number of questions, total time, and different sections or question types (e.g., multiple-choice, true/false, matching). * *0:50 Calculate Time Per Question:* Divide the total test time by the number of questions (e.g., 60 minutes / 50 questions = 1.2 minutes per question) and note the halfway point for time and questions. This calculation helps students, especially slower test-takers, manage their pace and avoid rushing. * *1:11 The "Not Multiple Choice" Method:* This core strategy involves using your non-writing hand to cover the answer choices, reading the question, and trying to recall the answer from memory before looking at the options. This method has been shown to improve grades. * *1:30 Four Possible Outcomes:* When using this method, there are four results: * *Easy:* The answer comes to mind instantly and is present in the choices. * *Bad:* The answer comes to mind but is not listed as an option. * *Challenging:* You know you've seen the information but can't recall the specific answer immediately. * *Impossible:* You read the question and have no prior knowledge or idea of the answer. * *2:11 Start with Strengths to Build Confidence:* It's recommended to start with the easiest questions (where the answer pops right into mind) to build confidence and momentum, rather than starting at question one. * *2:10 Brain as a Computer - Benefits of Skipping:* Skipping challenging questions allows the brain to process information in the background, similar to recalling a forgotten name later. This "mental warm-up" often makes skipped questions seem easier when revisited. * *2:41 Why Cover Choices (Avoid Distractors):* Covering choices prevents "distractors" (incorrect but plausible answers) from confusing the student. By recalling the answer first, students avoid being misled by tricky options designed to resemble the correct answer. * *3:30 Handling Special Question Types:* * For "all of the above" or "both A & B," if your initial recall matches one option, check if other options could also be correct before selecting. * For "except" questions, read the choices first to identify what is true, then eliminate to find the one that doesn't belong. * *3:45 Critical Scantron Accuracy:* Emphasizes the importance of carefully aligning question numbers on the test booklet with the scantron sheet, especially when skipping questions, to prevent mis-bubbling. * *3:48 Overcoming a Slow Start - Personal Anecdote:* The speaker shares an experience where he answered only 1 out of the first 11 questions on a test but ultimately scored 96% by applying these strategies. This illustrates that a slow start is normal and doesn't predict overall failure; the brain sometimes needs time to "kick into gear." * *4:14 Reduce Anxiety, Maximize Points:* The overarching goal of these strategies is to help students remain relaxed, prevent panic, and systematically work through the test to secure as many points as possible, ensuring easy marks are not lost. I used gemini-2.5-flash-preview-05-20| input-price: 0.15 output-price: 3.5 max-context-length: 128_000 on rocketrecap dot com to summarize the transcript. Cost (if I didn't use the free tier): $0.0073 Input tokens: 22813 Output tokens: 1094
Abstract:
Scott Bruckner from the 90H department presents practical test-taking strategies for college students, specifically targeting multiple-choice exams. The workshop emphasizes the importance of pre-test planning, including a quick test preview and calculating time per question, to optimize pacing and reduce anxiety. The core methodology, termed the "Not Multiple Choice" or "Two-Handed" method, instructs students to cover answer choices and recall the answer independently before revealing the options. This technique aims to prevent manipulation by distractors and foster genuine recall. Bruckner advocates for a strategic approach of tackling easy questions first, allowing the brain a "mental warm-up" period, and returning to more challenging questions later. This iterative process, likened to a computer's background processing or an "old car" warming up, helps build confidence and often makes previously difficult questions more accessible. The strategies also cover how to approach "all of the above" and "except" questions, and stress the critical importance of accurate scantron bubbling. Ultimately, these methods are designed to help students, especially slower test-takers, maximize their scores by maintaining composure, improving focus, and efficiently navigating the exam under pressure.
Summarizing Test-Taking Strategies for College Exams
Below, I will provide input for an example video (comprising of title, description, and transcript, in this order) and the corresponding abstract and summary I expect. Afterward, I will provide a new transcript that I want you to summarize in the same format. **Please give an abstract of the transcript and then summarize the transcript in a self-contained bullet list format.** Include starting timestamps, important details and key takeaways. Example Input: Fluidigm Polaris Part 2- illuminator and camera mikeselectricstuff 131K subscribers Subscribed 369 Share Download Clip Save 5,857 views Aug 26, 2024 Fluidigm Polaris part 1 : • Fluidigm Polaris (Part 1) - Biotech g... Ebay listings: https://www.ebay.co.uk/usr/mikeselect... Merch https://mikeselectricstuff.creator-sp... Transcript Follow along using the transcript. Show transcript mikeselectricstuff 131K subscribers Videos About Support on Patreon 40 Comments @robertwatsonbath 6 hours ago Thanks Mike. Ooof! - with the level of bodgery going on around 15:48 I think shame would have made me do a board re spin, out of my own pocket if I had to. 1 Reply @Muonium1 9 hours ago The green LED looks different from the others and uses phosphor conversion because of the "green gap" problem where green InGaN emitters suffer efficiency droop at high currents. Phosphide based emitters don't start becoming efficient until around 600nm so also can't be used for high power green emitters. See the paper and plot by Matthias Auf der Maur in his 2015 paper on alloy fluctuations in InGaN as the cause of reduced external quantum efficiency at longer (green) wavelengths. 4 Reply 1 reply @tafsirnahian669 10 hours ago (edited) Can this be used as an astrophotography camera? Reply mikeselectricstuff · 1 reply @mikeselectricstuff 6 hours ago Yes, but may need a shutter to avoid light during readout Reply @2010craggy 11 hours ago Narrowband filters we use in Astronomy (Astrophotography) are sided- they work best passing light in one direction so I guess the arrows on the filter frames indicate which way round to install them in the filter wheel. 1 Reply @vitukz 12 hours ago A mate with Channel @extractions&ire could use it 2 Reply @RobertGallop 19 hours ago That LED module says it can go up to 28 amps!!! 21 amps for 100%. You should see what it does at 20 amps! Reply @Prophes0r 19 hours ago I had an "Oh SHIT!" moment when I realized that the weird trapezoidal shape of that light guide was for keystone correction of the light source. Very clever. 6 Reply @OneBiOzZ 20 hours ago given the cost of the CCD you think they could have run another PCB for it 9 Reply @tekvax01 21 hours ago $20 thousand dollars per minute of run time! 1 Reply @tekvax01 22 hours ago "We spared no expense!" John Hammond Jurassic Park. *(that's why this thing costs the same as a 50-seat Greyhound Bus coach!) Reply @florianf4257 22 hours ago The smearing on the image could be due to the fact that you don't use a shutter, so you see brighter stripes under bright areas of the image as you still iluminate these pixels while the sensor data ist shifted out towards the top. I experienced this effect back at university with a LN-Cooled CCD for Spectroscopy. The stripes disapeared as soon as you used the shutter instead of disabling it in the open position (but fokussing at 100ms integration time and continuous readout with a focal plane shutter isn't much fun). 12 Reply mikeselectricstuff · 1 reply @mikeselectricstuff 12 hours ago I didn't think of that, but makes sense 2 Reply @douro20 22 hours ago (edited) The red LED reminds me of one from Roithner Lasertechnik. I have a Symbol 2D scanner which uses two very bright LEDs from that company, one red and one red-orange. The red-orange is behind a lens which focuses it into an extremely narrow beam. 1 Reply @RicoElectrico 23 hours ago PFG is Pulse Flush Gate according to the datasheet. Reply @dcallan812 23 hours ago Very interesting. 2x Reply @littleboot_ 1 day ago Cool interesting device Reply @dav1dbone 1 day ago I've stripped large projectors, looks similar, wonder if some of those castings are a magnesium alloy? Reply @kevywevvy8833 1 day ago ironic that some of those Phlatlight modules are used in some of the cheapest disco lights. 1 Reply 1 reply @bill6255 1 day ago Great vid - gets right into subject in title, its packed with information, wraps up quickly. Should get a YT award! imho 3 Reply @JAKOB1977 1 day ago (edited) The whole sensor module incl. a 5 grand 50mpix sensor for 49 £.. highest bid atm Though also a limited CCD sensor, but for the right buyer its a steal at these relative low sums. Architecture Full Frame CCD (Square Pixels) Total Number of Pixels 8304 (H) × 6220 (V) = 51.6 Mp Number of Effective Pixels 8208 (H) × 6164 (V) = 50.5 Mp Number of Active Pixels 8176 (H) × 6132 (V) = 50.1 Mp Pixel Size 6.0 m (H) × 6.0 m (V) Active Image Size 49.1 mm (H) × 36.8 mm (V) 61.3 mm (Diagonal), 645 1.1x Optical Format Aspect Ratio 4:3 Horizontal Outputs 4 Saturation Signal 40.3 ke− Output Sensitivity 31 V/e− Quantum Efficiency KAF−50100−CAA KAF−50100−AAA KAF−50100−ABA (with Lens) 22%, 22%, 16% (Peak R, G, B) 25% 62% Read Noise (f = 18 MHz) 12.5 e− Dark Signal (T = 60°C) 42 pA/cm2 Dark Current Doubling Temperature 5.7°C Dynamic Range (f = 18 MHz) 70.2 dB Estimated Linear Dynamic Range (f = 18 MHz) 69.3 dB Charge Transfer Efficiency Horizontal Vertical 0.999995 0.999999 Blooming Protection (4 ms Exposure Time) 800X Saturation Exposure Maximum Date Rate 18 MHz Package Ceramic PGA Cover Glass MAR Coated, 2 Sides or Clear Glass Features • TRUESENSE Transparent Gate Electrode for High Sensitivity • Ultra-High Resolution • Board Dynamic Range • Low Noise Architecture • Large Active Imaging Area Applications • Digitization • Mapping/Aerial • Photography • Scientific Thx for the tear down Mike, always a joy Reply @martinalooksatthings 1 day ago 15:49 that is some great bodging on of caps, they really didn't want to respin that PCB huh 8 Reply @RhythmGamer 1 day ago Was depressed today and then a new mike video dropped and now I’m genuinely happy to get my tear down fix 1 Reply @dine9093 1 day ago (edited) Did you transfrom into Mr Blobby for a moment there? 2 Reply @NickNorton 1 day ago Thanks Mike. Your videos are always interesting. 5 Reply @KeritechElectronics 1 day ago Heavy optics indeed... Spare no expense, cost no object. Splendid build quality. The CCD is a thing of beauty! 1 Reply @YSoreil 1 day ago The pricing on that sensor is about right, I looked in to these many years ago when they were still in production since it's the only large sensor you could actually buy. Really cool to see one in the wild. 2 Reply @snik2pl 1 day ago That leds look like from led projector Reply @vincei4252 1 day ago TDI = Time Domain Integration ? 1 Reply @wolpumba4099 1 day ago (edited) Maybe the camera should not be illuminated during readout. From the datasheet of the sensor (Onsemi): saturation 40300 electrons, read noise 12.5 electrons per pixel @ 18MHz (quite bad). quantum efficiency 62% (if it has micro lenses), frame rate 1 Hz. lateral overflow drain to prevent blooming protects against 800x (factor increases linearly with exposure time) saturation exposure (32e6 electrons per pixel at 4ms exposure time), microlens has +/- 20 degree acceptance angle i guess it would be good for astrophotography 4 Reply @txm100 1 day ago (edited) Babe wake up a new mikeselectricstuff has dropped! 9 Reply @vincei4252 1 day ago That looks like a finger-lakes filter wheel, however, for astronomy they'd never use such a large stepper. 1 Reply @MRooodddvvv 1 day ago yaaaaay ! more overcomplicated optical stuff ! 4 Reply 1 reply @NoPegs 1 day ago He lives! 11 Reply 1 reply Transcript 0:00 so I've stripped all the bits of the 0:01 optical system so basically we've got 0:03 the uh the camera 0:05 itself which is mounted on this uh very 0:09 complex 0:10 adjustment thing which obviously to set 0:13 you the various tilt and uh alignment 0:15 stuff then there's two of these massive 0:18 lenses I've taken one of these apart I 0:20 think there's something like about eight 0:22 or nine Optical elements in here these 0:25 don't seem to do a great deal in terms 0:26 of electr magnification they're obiously 0:28 just about getting the image to where it 0:29 uh where it needs to be just so that 0:33 goes like that then this Optical block I 0:36 originally thought this was made of some 0:37 s crazy heavy material but it's just 0:39 really the sum of all these Optical bits 0:41 are just ridiculously heavy those lenses 0:43 are about 4 kilos each and then there's 0:45 this very heavy very solid um piece that 0:47 goes in the middle and this is so this 0:49 is the filter wheel assembly with a 0:51 hilariously oversized steper 0:53 motor driving this wheel with these very 0:57 large narrow band filters so we've got 1:00 various different shades of uh 1:03 filters there five Al together that 1:06 one's actually just showing up a silver 1:07 that's actually a a red but fairly low 1:10 transmission orangey red blue green 1:15 there's an excess cover on this side so 1:16 the filters can be accessed and changed 1:19 without taking anything else apart even 1:21 this is like ridiculous it's like solid 1:23 aluminium this is just basically a cover 1:25 the actual wavelengths of these are um 1:27 488 525 570 630 and 700 NM not sure what 1:32 the suffix on that perhaps that's the uh 1:34 the width of the spectral line say these 1:37 are very narrow band filters most of 1:39 them are you very little light through 1:41 so it's still very tight narrow band to 1:43 match the um fluoresence of the dies 1:45 they're using in the biochemical process 1:48 and obviously to reject the light that's 1:49 being fired at it from that Illuminator 1:51 box and then there's a there's a second 1:53 one of these lenses then the actual sort 1:55 of samples below that so uh very serious 1:58 amount of very uh chunky heavy Optics 2:01 okay let's take a look at this light 2:02 source made by company Lumen Dynamics 2:04 who are now part of 2:06 excelitas self-contained unit power 2:08 connector USB and this which one of the 2:11 Cable Bundle said was a TTL interface 2:14 USB wasn't used in uh the fluid 2:17 application output here and I think this 2:19 is an input for um light feedback I 2:21 don't if it's regulated or just a measur 2:23 measurement facility and the uh fiber 2:27 assembly 2:29 Square Inlet there and then there's two 2:32 outputs which have uh lens assemblies 2:35 and this small one which goes back into 2:37 that small Port just Loops out of here 2:40 straight back in So on this side we've 2:42 got the electronics which look pretty 2:44 straightforward we've got a bit of power 2:45 supply stuff over here and we've got 2:48 separate drivers for each wavelength now 2:50 interesting this is clearly been very 2:52 specifically made for this application 2:54 you I was half expecting like say some 2:56 generic drivers that could be used for a 2:58 number of different things but actually 3:00 literally specified the exact wavelength 3:02 on the PCB there is provision here for 3:04 385 NM which isn't populated but this is 3:07 clearly been designed very specifically 3:09 so these four drivers look the same but 3:10 then there's two higher power ones for 3:12 575 and 3:14 520 a slightly bigger heat sink on this 3:16 575 section there a p 24 which is 3:20 providing USB interface USB isolator the 3:23 USB interface just presents as a comport 3:26 I did have a quick look but I didn't 3:27 actually get anything sensible um I did 3:29 dump the Pi code out and there's a few 3:31 you a few sort of commands that you 3:32 could see in text but I didn't actually 3:34 manage to get it working properly I 3:36 found some software for related version 3:38 but it didn't seem to want to talk to it 3:39 but um I say that wasn't used for the 3:41 original application it might be quite 3:42 interesting to get try and get the Run 3:44 hours count out of it and the TTL 3:46 interface looks fairly straightforward 3:48 we've got positions for six opto 3:50 isolators but only five five are 3:52 installed so that corresponds with the 3:54 unused thing so I think this hopefully 3:56 should be as simple as just providing a 3:57 ttrl signal for each color to uh enable 4:00 it a big heat sink here which is there I 4:03 think there's like a big S of metal 4:04 plate through the middle of this that 4:05 all the leads are mounted on the other 4:07 side so this is heat sinking it with a 4:09 air flow from a uh just a fan in here 4:13 obviously don't have the air flow 4:14 anywhere near the Optics so conduction 4:17 cool through to this plate that's then 4:18 uh air cooled got some pots which are 4:21 presumably power 4:22 adjustments okay let's take a look at 4:24 the other side which is uh much more 4:27 interesting see we've got some uh very 4:31 uh neatly Twisted cable assemblies there 4:35 a bunch of leads so we've got one here 4:37 475 up here 430 NM 630 575 and 520 4:44 filters and dcro mirrors a quick way to 4:48 see what's white is if we just shine 4:49 some white light through 4:51 here not sure how it is is to see on the 4:54 camera but shining white light we do 4:55 actually get a bit of red a bit of blue 4:57 some yellow here so the obstacle path 5:00 575 it goes sort of here bounces off 5:03 this mirror and goes out the 520 goes 5:07 sort of down here across here and up 5:09 there 630 goes basically straight 5:13 through 5:15 430 goes across there down there along 5:17 there and the 475 goes down here and 5:20 left this is the light sensing thing 5:22 think here there's just a um I think 5:24 there a photo diode or other sensor 5:26 haven't actually taken that off and 5:28 everything's fixed down to this chunk of 5:31 aluminium which acts as the heat 5:32 spreader that then conducts the heat to 5:33 the back side for the heat 5:35 sink and the actual lead packages all 5:38 look fairly similar except for this one 5:41 on the 575 which looks quite a bit more 5:44 substantial big spay 5:46 Terminals and the interface for this 5:48 turned out to be extremely simple it's 5:50 literally a 5V TTL level to enable each 5:54 color doesn't seem to be any tensity 5:56 control but there are some additional 5:58 pins on that connector that weren't used 5:59 in the through time thing so maybe 6:01 there's some extra lines that control 6:02 that I couldn't find any data on this uh 6:05 unit and the um their current product 6:07 range is quite significantly different 6:09 so we've got the uh blue these 6:13 might may well be saturating the camera 6:16 so they might look a bit weird so that's 6:17 the 430 6:18 blue the 575 6:24 yellow uh 6:26 475 light blue 6:29 the uh 520 6:31 green and the uh 630 red now one 6:36 interesting thing I noticed for the 6:39 575 it's actually it's actually using a 6:42 white lead and then filtering it rather 6:44 than using all the other ones are using 6:46 leads which are the fundamental colors 6:47 but uh this is actually doing white and 6:50 it's a combination of this filter and 6:52 the dichroic mirrors that are turning to 6:55 Yellow if we take the filter out and a 6:57 lot of the a lot of the um blue content 7:00 is going this way the red is going 7:02 straight through these two mirrors so 7:05 this is clearly not reflecting much of 7:08 that so we end up with the yellow coming 7:10 out of uh out of there which is a fairly 7:14 light yellow color which you don't 7:16 really see from high intensity leads so 7:19 that's clearly why they've used the 7:20 white to uh do this power consumption of 7:23 the white is pretty high so going up to 7:25 about 2 and 1 half amps on that color 7:27 whereas most of the other colors are 7:28 only drawing half an amp or so at 24 7:30 volts the uh the green is up to about 7:32 1.2 but say this thing is uh much 7:35 brighter and if you actually run all the 7:38 colors at the same time you get a fairly 7:41 reasonable um looking white coming out 7:43 of it and one thing you might just be 7:45 out to notice is there is some sort 7:46 color banding around here that's not 7:49 getting uh everything s completely 7:51 concentric and I think that's where this 7:53 fiber optic thing comes 7:58 in I'll 8:00 get a couple of Fairly accurately shaped 8:04 very sort of uniform color and looking 8:06 at What's um inside here we've basically 8:09 just got this Square Rod so this is 8:12 clearly yeah the lights just bouncing 8:13 off all the all the various sides to um 8:16 get a nice uniform illumination uh this 8:19 back bit looks like it's all potted so 8:21 nothing I really do to get in there I 8:24 think this is fiber so I have come 8:26 across um cables like this which are 8:27 liquid fill but just looking through the 8:30 end of this it's probably a bit hard to 8:31 see it does look like there fiber ends 8:34 going going on there and so there's this 8:36 feedback thing which is just obviously 8:39 compensating for the any light losses 8:41 through here to get an accurate 8:43 representation of uh the light that's 8:45 been launched out of these two 8:47 fibers and you see uh 8:49 these have got this sort of trapezium 8:54 shape light guides again it's like a 8:56 sort of acrylic or glass light guide 9:00 guess projected just to make the right 9:03 rectangular 9:04 shape and look at this Center assembly 9:07 um the light output doesn't uh change 9:10 whether you feed this in or not so it's 9:11 clear not doing any internal Clos Loop 9:14 control obviously there may well be some 9:16 facility for it to do that but it's not 9:17 being used in this 9:19 application and so this output just 9:21 produces a voltage on the uh outle 9:24 connector proportional to the amount of 9:26 light that's present so there's a little 9:28 diffuser in the back there 9:30 and then there's just some kind of uh 9:33 Optical sensor looks like a 9:35 chip looking at the lead it's a very 9:37 small package on the PCB with this lens 9:40 assembly over the top and these look 9:43 like they're actually on a copper 9:44 Metalized PCB for maximum thermal 9:47 performance and yeah it's a very small 9:49 package looks like it's a ceramic 9:51 package and there's a thermister there 9:53 for temperature monitoring this is the 9:56 475 blue one this is the 520 need to 9:59 Green which is uh rather different OB 10:02 it's a much bigger D with lots of bond 10:04 wise but also this looks like it's using 10:05 a phosphor if I shine a blue light at it 10:08 lights up green so this is actually a 10:10 phosphor conversion green lead which 10:12 I've I've come across before they want 10:15 that specific wavelength so they may be 10:17 easier to tune a phosphor than tune the 10:20 um semiconductor material to get the uh 10:23 right right wavelength from the lead 10:24 directly uh red 630 similar size to the 10:28 blue one or does seem to have a uh a 10:31 lens on top of it there is a sort of red 10:33 coloring to 10:35 the die but that doesn't appear to be 10:38 fluorescent as far as I can 10:39 tell and the white one again a little 10:41 bit different sort of much higher 10:43 current 10:46 connectors a makeer name on that 10:48 connector flot light not sure if that's 10:52 the connector or the lead 10:54 itself and obviously with the phosphor 10:56 and I'd imagine that phosphor may well 10:58 be tuned to get the maximum to the uh 5 11:01 cenm and actually this white one looks 11:04 like a St fairly standard product I just 11:06 found it in Mouse made by luminous 11:09 devices in fact actually I think all 11:11 these are based on various luminous 11:13 devices modules and they're you take 11:17 looks like they taking the nearest 11:18 wavelength and then just using these 11:19 filters to clean it up to get a precise 11:22 uh spectral line out of it so quite a 11:25 nice neat and um extreme 11:30 bright light source uh sure I've got any 11:33 particular use for it so I think this 11:35 might end up on 11:36 eBay but uh very pretty to look out and 11:40 without the uh risk of burning your eyes 11:43 out like you do with lasers so I thought 11:45 it would be interesting to try and 11:46 figure out the runtime of this things 11:48 like this we usually keep some sort 11:49 record of runtime cuz leads degrade over 11:51 time I couldn't get any software to work 11:52 through the USB face but then had a 11:54 thought probably going to be writing the 11:55 runtime periodically to the e s prom so 11:58 I just just scope up that and noticed it 12:00 was doing right every 5 minutes so I 12:02 just ran it for a while periodically 12:04 reading the E squ I just held the pick 12:05 in in reset and um put clip over to read 12:07 the square prom and found it was writing 12:10 one location per color every 5 minutes 12:12 so if one color was on it would write 12:14 that location every 5 minutes and just 12:16 increment it by one so after doing a few 12:18 tests with different colors of different 12:19 time periods it looked extremely 12:21 straightforward it's like a four bite 12:22 count for each color looking at the 12:24 original data that was in it all the 12:26 colors apart from Green were reading 12:28 zero and the green was reading four 12:30 indicating a total 20 minutes run time 12:32 ever if it was turned on run for a short 12:34 time then turned off that might not have 12:36 been counted but even so indicates this 12:37 thing wasn't used a great deal the whole 12:40 s process of doing a run can be several 12:42 hours but it'll only be doing probably 12:43 the Imaging at the end of that so you 12:46 wouldn't expect to be running for a long 12:47 time but say a single color for 20 12:50 minutes over its whole lifetime does 12:52 seem a little bit on the low side okay 12:55 let's look at the camera un fortunately 12:57 I managed to not record any sound when I 12:58 did this it's also a couple of months 13:00 ago so there's going to be a few details 13:02 that I've forgotten so I'm just going to 13:04 dub this over the original footage so um 13:07 take the lid off see this massive great 13:10 heat sink so this is a pel cool camera 13:12 we've got this blower fan producing a 13:14 fair amount of air flow through 13:16 it the connector here there's the ccds 13:19 mounted on the board on the 13:24 right this unplugs so we've got a bit of 13:27 power supply stuff on here 13:29 USB interface I think that's the Cyprus 13:32 microcontroller High speeded USB 13:34 interface there's a zyink spon fpga some 13:40 RAM and there's a couple of ATD 13:42 converters can't quite read what those 13:45 those are but anal 13:47 devices um little bit of bodgery around 13:51 here extra decoupling obviously they 13:53 have having some noise issues this is 13:55 around the ram chip quite a lot of extra 13:57 capacitors been added there 13:59 uh there's a couple of amplifiers prior 14:01 to the HD converter buffers or Andor 14:05 amplifiers taking the CCD 14:08 signal um bit more power spy stuff here 14:11 this is probably all to do with 14:12 generating the various CCD bias voltages 14:14 they uh need quite a lot of exotic 14:18 voltages next board down is just a 14:20 shield and an interconnect 14:24 boardly shielding the power supply stuff 14:26 from some the more sensitive an log 14:28 stuff 14:31 and this is the bottom board which is 14:32 just all power supply 14:34 stuff as you can see tons of capacitors 14:37 or Transformer in 14:42 there and this is the CCD which is a uh 14:47 very impressive thing this is a kf50 100 14:50 originally by true sense then codec 14:53 there ON 14:54 Semiconductor it's 50 megapixels uh the 14:58 only price I could find was this one 15:00 5,000 bucks and the architecture you can 15:03 see there actually two separate halves 15:04 which explains the Dual AZ converters 15:06 and two amplifiers it's literally split 15:08 down the middle and duplicated so it's 15:10 outputting two streams in parallel just 15:13 to keep the bandwidth sensible and it's 15:15 got this amazing um diffraction effects 15:18 it's got micro lenses over the pixel so 15:20 there's there's a bit more Optics going 15:22 on than on a normal 15:25 sensor few more bodges on the CCD board 15:28 including this wire which isn't really 15:29 tacked down very well which is a bit uh 15:32 bit of a mess quite a few bits around 15:34 this board where they've uh tacked 15:36 various bits on which is not super 15:38 impressive looks like CCD drivers on the 15:40 left with those 3 ohm um damping 15:43 resistors on the 15:47 output get a few more little bodges 15:50 around here some of 15:52 the and there's this separator the 15:54 silica gel to keep the moisture down but 15:56 there's this separator that actually 15:58 appears to be cut from piece of 15:59 antistatic 16:04 bag and this sort of thermal block on 16:06 top of this stack of three pel Cola 16:12 modules so as with any Stacks they get 16:16 um larger as they go back towards the 16:18 heat sink because each P's got to not 16:20 only take the heat from the previous but 16:21 also the waste heat which is quite 16:27 significant you see a little temperature 16:29 sensor here that copper block which 16:32 makes contact with the back of the 16:37 CCD and this's the back of the 16:40 pelas this then contacts the heat sink 16:44 on the uh rear there a few thermal pads 16:46 as well for some of the other power 16:47 components on this 16:51 PCB okay I've connected this uh camera 16:54 up I found some drivers on the disc that 16:56 seem to work under Windows 7 couldn't 16:58 get to install under Windows 11 though 17:01 um in the absence of any sort of lens or 17:03 being bothered to the proper amount I've 17:04 just put some f over it and put a little 17:06 pin in there to make a pinhole lens and 17:08 software gives a few options I'm not 17:11 entirely sure what all these are there's 17:12 obviously a clock frequency 22 MHz low 17:15 gain and with PFG no idea what that is 17:19 something something game programmable 17:20 Something game perhaps ver exposure 17:23 types I think focus is just like a 17:25 continuous grab until you tell it to 17:27 stop not entirely sure all these options 17:30 are obviously exposure time uh triggers 17:33 there ex external hardware trigger inut 17:35 you just trigger using a um thing on 17:37 screen so the resolution is 8176 by 17:40 6132 and you can actually bin those 17:42 where you combine multiple pixels to get 17:46 increased gain at the expense of lower 17:48 resolution down this is a 10sec exposure 17:51 obviously of the pin hole it's very uh 17:53 intensitive so we just stand still now 17:56 downloading it there's the uh exposure 17:59 so when it's 18:01 um there's a little status thing down 18:03 here so that tells you the um exposure 18:07 [Applause] 18:09 time it's this is just it 18:15 downloading um it is quite I'm seeing 18:18 quite a lot like smearing I think that I 18:20 don't know whether that's just due to 18:21 pixels overloading or something else I 18:24 mean yeah it's not it's not um out of 18:26 the question that there's something not 18:27 totally right about this camera 18:28 certainly was bodge wise on there um I 18:31 don't I'd imagine a camera like this 18:32 it's got a fairly narrow range of 18:34 intensities that it's happy with I'm not 18:36 going to spend a great deal of time on 18:38 this if you're interested in this camera 18:40 maybe for astronomy or something and 18:42 happy to sort of take the risk of it may 18:44 not be uh perfect I'll um I think I'll 18:47 stick this on eBay along with the 18:48 Illuminator I'll put a link down in the 18:50 description to the listing take your 18:52 chances to grab a bargain so for example 18:54 here we see this vertical streaking so 18:56 I'm not sure how normal that is this is 18:58 on fairly bright scene looking out the 19:02 window if I cut the exposure time down 19:04 on that it's now 1 second 19:07 exposure again most of the image 19:09 disappears again this is looks like it's 19:11 possibly over still overloading here go 19:14 that go down to say say quarter a 19:16 second so again I think there might be 19:19 some Auto gain control going on here um 19:21 this is with the PFG option let's try 19:23 turning that off and see what 19:25 happens so I'm not sure this is actually 19:27 more streaking or which just it's 19:29 cranked up the gain all the dis display 19:31 gray scale to show what um you know the 19:33 range of things that it's captured 19:36 there's one of one of 12 things in the 19:38 software there's um you can see of you 19:40 can't seem to read out the temperature 19:42 of the pelta cooler but you can set the 19:44 temperature and if you said it's a 19:46 different temperature you see the power 19:48 consumption jump up running the cooler 19:50 to get the temperature you requested but 19:52 I can't see anything anywhere that tells 19:54 you whether the cool is at the at the 19:56 temperature other than the power 19:57 consumption going down and there's no 19:59 temperature read out 20:03 here and just some yeah this is just 20:05 sort of very basic software I'm sure 20:07 there's like an API for more 20:09 sophisticated 20:10 applications but so if you know anything 20:12 more about these cameras please um stick 20:14 in the 20:15 comments um incidentally when I was 20:18 editing I didn't notice there was a bent 20:19 pin on the um CCD but I did fix that 20:22 before doing these tests and also 20:24 reactivated the um silica gel desicant 20:26 cuz I noticed it was uh I was getting 20:28 bit of condensation on the window but um 20:31 yeah so a couple of uh interesting but 20:34 maybe not particularly uh useful pieces 20:37 of Kit except for someone that's got a 20:38 very specific use so um I'll stick a 20:42 I'll stick these on eBay put a link in 20:44 the description and say hopefully 20:45 someone could actually make some uh good 20:47 use of these things Example Output: **Abstract:** This video presents Part 2 of a teardown focusing on the optical components of a Fluidigm Polaris biotechnology instrument, specifically the multi-wavelength illuminator and the high-resolution CCD camera. The Lumen Dynamics illuminator unit is examined in detail, revealing its construction using multiple high-power LEDs (430nm, 475nm, 520nm, 575nm, 630nm) combined via dichroic mirrors and filters. A square fiber optic rod is used to homogenize the light. A notable finding is the use of a phosphor-converted white LED filtered to achieve the 575nm output. The unit features simple TTL activation for each color, conduction cooling, and internal homogenization optics. Analysis of its EEPROM suggests extremely low operational runtime. The camera module teardown showcases a 50 Megapixel ON Semiconductor KAF-50100 CCD sensor with micro-lenses, cooled by a multi-stage Peltier stack. The control electronics include an FPGA and a USB interface. Significant post-manufacturing modifications ("bodges") are observed on the camera's circuit boards. Basic functional testing using vendor software and a pinhole lens confirms image capture but reveals prominent vertical streaking artifacts, the cause of which remains uncertain (potential overload, readout artifact, or fault). **Exploring the Fluidigm Polaris: A Detailed Look at its High-End Optics and Camera System** * **0:00 High-End Optics:** The system utilizes heavy, high-quality lenses and mirrors for precise imaging, weighing around 4 kilos each. * **0:49 Narrow Band Filters:** A filter wheel with five narrow band filters (488, 525, 570, 630, and 700 nm) ensures accurate fluorescence detection and rejection of excitation light. * **2:01 Customizable Illumination:** The Lumen Dynamics light source offers five individually controllable LED wavelengths (430, 475, 520, 575, 630 nm) with varying power outputs. The 575nm yellow LED is uniquely achieved using a white LED with filtering. * **3:45 TTL Control:** The light source is controlled via a simple TTL interface, enabling easy on/off switching for each LED color. * **12:55 Sophisticated Camera:** The system includes a 50-megapixel Kodak KAI-50100 CCD camera with a Peltier cooling system for reduced noise. * **14:54 High-Speed Data Transfer:** The camera features dual analog-to-digital converters to manage the high data throughput of the 50-megapixel sensor, which is effectively two 25-megapixel sensors operating in parallel. * **18:11 Possible Issues:** The video creator noted some potential issues with the camera, including image smearing. * **18:11 Limited Dynamic Range:** The camera's sensor has a limited dynamic range, making it potentially challenging to capture scenes with a wide range of brightness levels. * **11:45 Low Runtime:** Internal data suggests the system has seen minimal usage, with only 20 minutes of recorded runtime for the green LED. * **20:38 Availability on eBay:** Both the illuminator and camera are expected to be listed for sale on eBay. Here is the real transcript. Please summarize it: 00:00:01 name is scott bruckner ninety h uh... 00:00:06 through our department here 00:00:10 the spring that'll help you to be a better 00:00:15 i teach at or somebody else and also these 00:00:20 spring so if you find this workshop helpful 00:00:24 today 00:00:25 more starting the third week of the strain 00:00:30 i'm not sure if we'll be in this room or some 00:00:34 that in mind and we always start the third 00:00:39 week of the semester so 00:00:40 counter prolly the first week of spring and 00:00:44 and if anything looks of interest or if you 00:00:48 have another teacher gives the extra credit 00:00:50 you know where to find a okay 00:00:52 because in some ways it's the most helpful 00:00:59 good quick question on anybody here have at 00:01:04 least one final coming up 00:01:05 that has multiple-choice questions on it 00:01:08 okay i'm assuming most of you do if not 00:01:11 most commonly given test question in college 00:01:16 choice do somethings wrong that causes them 00:01:21 as well as they should 00:01:25 give you 00:01:29 are strategies that are supposed to help a 00:01:35 student to get off to a good start on a test 00:01:37 it's as they are both for joyce or whatever 00:01:41 i write these up here if you haven't studied 00:01:47 this will not help you 00:01:48 always looking for the last little uh... trick 00:01:53 if you've studied 00:01:54 and it's all up out there 00:01:56 it out on the test there's nothing worse than 00:02:01 up and you remember half the answers that 00:02:06 you 00:02:07 the first one of these 00:02:10 when students you they get their test 00:02:13 hopefully they'll read the directions 00:02:15 is they start reading the first question unjust 00:02:19 they feel pressure 00:02:23 could do don't know if you do this now is 00:02:27 the test 00:02:33 at the different parts of the test if there 00:02:37 are different parts 00:02:38 actually 00:02:39 in just a minute 00:02:43 looking for when you do the preview the first 00:02:48 on the test 00:02:53 a time sometimes they don't 00:02:57 of questions 00:03:02 or is it all the sort of one type 00:03:08 now have put up yourself in a manner 00:03:11 you have fifty questions on the test 00:03:15 first thirty multiple-choice the next ten 00:03:19 true false and then the last ten matching 00:03:23 something like that 00:03:24 other teachers mix everything together 00:03:29 is do this quick preview and then do one more 00:03:33 thing 00:03:34 you here for scantron type test so if you 00:03:40 have 00:03:40 front in a written one that's a little more 00:03:45 complicated 00:03:46 you start which again should just take a few 00:03:50 seconds 00:03:51 is to 00:03:52 calculate 00:03:54 you can use 00:03:58 are low 00:04:01 forward to that 00:04:04 if map is your worst subject 00:04:08 going to be in here from twelve o'clock to 00:04:14 one o'clock even though you're not 00:04:16 when i can see the test your first little 00:04:21 calculation 00:04:21 halfway through the test 00:04:25 that usually pretty easy to figure out 00:04:26 so what would it be here 00:04:28 do would be to write that time down maybe 00:04:33 in the corner of your scantron or wherever 00:04:35 and then one more thing to write down 00:04:38 are fifty of them so what's happened fifty 00:04:44 so that's about is 00:04:45 your little code your little calculation 00:04:50 case soon as you do that 00:04:52 the purpose behind this 00:04:55 and i don't know you well enough to know 00:04:58 whether this has ever been an issue but 00:05:00 sometime students get stock 00:05:03 time on it we're just in general there going 00:05:07 in a very 00:05:08 slow pace 00:05:09 end up having to rush 00:05:13 but when your time management during the test 00:05:17 is not good 00:05:18 it makes it even harder so this is designed 00:05:22 primarily for the slower test taker 00:05:25 and this is around where you should be 00:05:30 by then 00:05:34 be and it's not time to panic yet 00:05:39 you just have to 00:05:43 reading every question four times 00:05:47 have to be cut it down to two 00:05:50 and to start on a little bit faster 00:05:52 you count the number of questions you've answered 00:05:57 an ad somewhere in this region 00:05:59 going the way you're going but if 00:06:02 you're behind 00:06:03 it helps you to stop that 00:06:05 and i always look at this 00:06:07 almost like this 00:06:08 kind of like ago normal good 00:06:14 up part 00:06:16 on the right track it kinda reassures you 00:06:21 or pushes you a little bit 00:06:23 okay and then the 00:06:24 get to the multiple-choice 00:06:27 uh... 00:06:29 supposed to know the answer no pressure ok 00:06:33 and that is 00:06:34 on when they take a test 00:06:39 number one 00:06:42 because number one 00:06:43 are you do you have to start it number one 00:06:47 now why would you ever not want to do that 00:06:52 yet if it's heart 00:06:54 is the reason that you do this survey and 00:06:58 test if there are 00:07:01 do or think about is this whenever you're 00:07:06 with your strength first 00:07:13 start at anything in life 00:07:17 confidence and momentum 00:07:21 and uh... 00:07:22 blindly without thinking about it is 00:07:27 logical 00:07:31 happen to notice that this was your test one 00:07:35 taker 00:07:38 your reading every question but look at these 00:07:42 these are really long 00:07:46 these look a little tricky 00:07:48 if that's the case then where do you start 00:07:52 these then these 00:07:56 uh... 00:07:58 when you handed a scantron 00:07:59 and say 00:08:02 well you started on forty one 00:08:04 to them as long as you get a good score of 00:08:08 that doesn't matter 00:08:09 you remember for the rest of colleges this 00:08:14 teaching 00:08:17 and that is 00:08:18 ever take are by far 00:08:23 you get a good great or not not the last five 00:08:28 at the first five 00:08:31 test like your finals coming up 00:08:35 all sinister every 00:08:38 student in the classes tied for first 00:08:41 so it's like a clean slate 00:08:45 of a test that causes you to 00:08:50 doubt yourself 00:08:52 blanked out whatever 00:08:54 to kinda unravel and usually once that happens 00:08:59 it just gets worse and worse and worse 00:09:02 if you do things in the first five minutes 00:09:04 that help you to 00:09:06 gain confidence 00:09:08 going off to a good start 00:09:11 way so you're gonna go one direction or another 00:09:16 and i know which one you want to go in 00:09:18 and so if you just automatically start 00:09:21 section of the class for you or the test 00:09:25 and you can't quite figure him out then you 00:09:29 yourself and everything and it just tends 00:09:33 idea to look through and start wherever you 00:09:38 think you can do well 00:09:40 you have no strength 00:09:43 when a test has two or more parts 00:09:47 scary than the other parts or at least or 00:09:51 he's here 00:09:52 possibly can 00:09:55 uh... so 00:09:56 studied but the idea is 00:10:00 you got an organized way of doing it and then 00:10:05 you start well 00:10:06 better from there okay 00:10:09 the questions on those three 00:10:12 okay 00:10:12 about multiple-choice tests and as i mentioned 00:10:18 in college 00:10:19 the classes you take but 00:10:23 test in college 00:10:27 best study skill right now 00:10:33 classes i teach dozens of study skills all 00:10:38 otherwise i wouldn't 00:10:41 teach them 00:10:42 but this one 00:10:44 call 00:10:48 name then this but this is what it's called 00:10:54 is not multiple choice method 00:10:58 background 00:11:02 year of high school long time ago 00:11:07 they took in college 00:11:11 and all that 00:11:13 think now over the years 00:11:17 and had a lot of people come back saying 00:11:19 i tried what you mentioned 00:11:21 and my grade went up a little 00:11:23 too 00:11:25 never had a certain time 00:11:27 so nobody has gone down that i'm aware of 00:11:32 any help 00:11:35 so 00:11:37 uh... here's the way this works 00:11:39 really simple is that 00:11:43 you're about to start 00:11:46 choice star start even 00:11:51 you've done the quick preview and you've done 00:11:55 halfway through 00:11:57 again there all the same 00:12:01 you've ever tried before but most of them 00:12:05 to be what i call it to handed test taker 00:12:10 sounds kinda strange 00:12:11 non writing and which for most is there left 00:12:16 the test booklet and you're going to cover 00:12:20 up or 00:12:21 of the choices for question number one 00:12:24 not like this 00:12:25 may be tempted but no peaking this is an opaque 00:12:30 method 00:12:30 you read the question 00:12:32 ask yourself 00:12:35 a simple question which is 00:12:37 what's the answer 00:12:38 say what do i have been here about that 00:12:42 cake when you do that 00:12:45 you're going to end up having one of for results 00:12:50 a minute so you just have to sort of but bear 00:12:54 with me on this 00:12:55 three 00:12:58 are bad 00:13:00 gets better 00:13:02 here's the first uh... 00:13:04 all the time but you don't get 00:13:08 you cover up the choices 00:13:10 you read the question 00:13:11 the answer pops in your head 00:13:13 you take your hand away 00:13:14 in there it is 00:13:16 i wish they were all like that but they're 00:13:19 i'm going to refer to these as that the easy 00:13:24 ones 00:13:25 they didn't take anytime 00:13:27 you just do it right away 00:13:32 the first bad result 00:13:35 at least every once in awhile did to me 00:13:40 you cover up the choices 00:13:41 you read the question 00:13:43 the answer pops in your head 00:13:45 you take your hand away and 00:13:48 it's not there 00:13:51 the answer is just not one of those 00:13:55 well that's not too good 00:13:56 what happened 00:13:58 something went wrong somewhere 00:14:02 their once 00:14:06 and that's probably going to happen 00:14:07 up 00:14:10 the test 00:14:12 happens in the first don't panic second 00:14:18 must've miss read that and start over 00:14:23 it's a lot better for you to skip it 00:14:26 bit of why a m few minutes 00:14:30 okay now 00:14:31 were describing here is really easy and you 00:14:36 just say along toward an end 00:14:38 a there's no sweat goin you're just fine 00:14:42 result that you get 00:14:47 for most students on most tests 00:14:51 this is the moment of truth 00:14:53 will determine whether you had a really good 00:14:58 grade or not so these are huge 00:15:00 means in just a second is that 00:15:06 challenging 00:15:08 difficult as challenging sounds like you could 00:15:12 in 00:15:14 this on the test here's how it works basically 00:15:19 you cover up the choices 00:15:21 you read the question 00:15:23 asking you remember reading that in the book 00:15:27 in there 00:15:30 and this is your basic reaction 00:15:36 that is uh... 00:15:38 and you can think of it 00:15:39 what do you want to do okay 00:15:41 of searching and trying to think and if you 00:15:46 can't come up with that 00:15:48 then 00:15:49 skip those two 00:15:52 and then 00:15:54 the fourth result 00:15:56 the worst one 00:15:58 the question 00:16:02 and as soon as you finish 00:16:03 big brown 00:16:05 comes to you read it again 00:16:07 test 00:16:10 room because you've never seen 00:16:14 no idea 00:16:17 so that means you're gonna have to make a 00:16:19 totally wildcats 00:16:21 that happens to most people at least 00:16:24 hard to study 00:16:27 be honest and call impossible 00:16:33 it's not impossible 00:16:34 to uh... 00:16:36 just pick a letter 00:16:39 something 00:16:42 whatever it might have been 00:16:46 can either to share from personal experience 00:16:50 in general 00:16:52 i've asked a lot of students this 00:16:55 to a question you read it you think 00:16:59 i have no idea 00:17:00 people do 00:17:04 yet because 00:17:05 close their eyes and they did this 00:17:10 i'm feeling the 00:17:13 for a letter dot com 00:17:16 with you know i don't know so i've wealth 00:17:20 you think i want you to do with a 00:17:26 in this method okay 00:17:30 now uh... 00:17:31 take test but what most people tell me 00:17:36 this is a good thing 00:17:38 once in awhile they get to a question that 00:17:42 more so they skip it and go back 00:17:46 okay that's pretty common 00:17:47 but if u take attest this way 00:17:51 you're almost guaranteed to skip 00:17:56 and that makes people nervous at first 00:18:01 but it doesn't have to an unusual you why 00:18:03 the first time through 00:18:08 that he wants right 00:18:10 how many of those 00:18:12 are there going to be 00:18:14 to show you something 00:18:18 kind of shocking 00:18:21 answer twenty questions 00:18:26 okay so 00:18:27 in here you skipping 00:18:30 thirty 00:18:31 for 00:18:35 of made a good comeback a deep you're lucky 00:18:40 there 00:18:44 and calm 00:18:47 like the the good news 00:18:50 whose about this okay 00:18:52 once 00:18:56 the test find the first question you skipped 00:19:01 again same thing that you did before 00:19:06 fairly often 00:19:10 time and cover up the choices and 00:19:14 renewed read them 00:19:20 but possibility 00:19:21 by the way i forgot to mention that 00:19:24 going to be those challenging ones that you 00:19:28 of 00:19:33 uh... 00:19:35 but on many of these something strange will 00:19:39 up the choices and you read the question again 00:19:45 the answer pops right in your head 00:19:48 your hand away and there it is 00:19:55 that's good 00:19:56 that seemed kinda like a tough one 00:19:59 now it's easy 00:20:02 i'm going to just use this number as an example 00:20:06 and say 00:20:08 into that category 00:20:11 of these 00:20:15 i want to see if you can figure out why that 00:20:19 provide about tests 00:20:24 why would a 00:20:25 since seen easier 00:20:27 try the first time 00:20:31 true 00:20:39 as part of it 00:20:39 and what else 00:20:40 you know when you look at uh... fifty questions 00:20:43 right that's what you did the first time 00:20:45 you see a mall 00:20:47 right sometimes u seem something in one question 00:20:50 starts 00:20:51 of it but here's my favorite example any of 00:20:55 you to illustrations of this 00:20:58 i'm sure 00:20:59 some more than others 00:21:03 some people and i described as they say 00:21:05 happens every day 00:21:06 other times it's occasionally 00:21:08 name 00:21:11 and you know their name 00:21:13 uh... 00:21:18 community his name is uh... 00:21:21 right on the tip of my time 00:21:23 his name 00:21:24 and you can think of it 00:21:25 know that name 00:21:29 keep pushing yourself to try to remember it 00:21:35 what usually happens 00:21:36 yet it usually 00:21:37 more and more frustrated they can why can't 00:21:41 i think it is so what do you finally do it 00:21:43 you get up right and then 00:21:45 the weirdness happens 00:21:47 day you're walking down the street yours and 00:21:51 the dangers comes into your mouth 00:21:55 and you're like where did that come from 00:21:57 alone 00:21:58 of that teacher i had a few years ago and 00:22:01 it just comes out 00:22:03 when you didn't even ask it to 00:22:05 that's pretty weird right 00:22:06 that happens to everybody 00:22:07 lot more like computers than we give them 00:22:12 credit for 00:22:13 on the test and you read it and you think 00:22:18 can find it and you just let it go 00:22:23 and you go on to other things 00:22:25 the other thing 00:22:31 when you come back around to it the second 00:22:34 time 00:22:35 you end up 00:22:37 sometimes 00:22:38 this i've found right there 00:22:42 so things to start click in better than they 00:22:46 did at the beginning 00:22:48 could do actually as a test taker 00:22:52 is to sit there and read a question 00:22:55 and then think 00:22:58 even picture of the page that was on what 00:23:02 is that i know that 00:23:03 and keep pushing and pushing and pushing 00:23:05 frustrated you get 00:23:09 and 00:23:13 wasted time 00:23:13 it'll come out in a little while that's kind 00:23:18 of the process 00:23:20 people a lot 00:23:23 is because of this uh... 00:23:25 the really strenuous way by running or playing 00:23:31 to do first 00:23:35 warm-up great strength why did it 00:23:39 i always tell people this 00:23:44 tell you how long i have never had a student 00:23:48 in the middle of the tests do this 00:23:53 pulled muscle 00:23:53 lived out of the room 00:23:56 the other one what did you say again 00:24:01 the worst runner the worst basketball player 00:24:06 whatever it is 00:24:06 out to do what it is 00:24:10 and perform up to your capabilities wherever 00:24:15 those are 00:24:16 unless the test is incredibly easy and there 00:24:21 are too many of those 00:24:23 when you sit down 00:24:24 the way you always want to think of it is 00:24:26 i need to be mental warm-up 00:24:29 like physically 00:24:35 that's what this is for 00:24:36 so the first time through the test 00:24:38 see you do this 00:24:44 that's tues 00:24:45 let the other ones go not warmed up yet on 00:24:49 that phone later 00:24:50 whatever you can get and then when you go 00:24:54 back later 00:24:55 and you get to these 00:24:56 you are as calm as you're gonna get 00:24:58 'cause you've answered some questions right 00:25:02 going to stand now you can dive in and think 00:25:06 hard an answer the more challenging questions 00:25:09 then 00:25:13 how many do we have left in this example 00:25:17 date which ones are the free 00:25:20 that's probably taking care of by now so these 00:25:25 are the impossible once 00:25:29 on it and three of them 00:25:33 look completely unknown to you 00:25:36 that's not to that 00:25:37 if this is thirteen or twenty three 00:25:40 has at least a few 00:25:43 and you come to help me with this most people 00:25:47 when they get rid of possible question 00:25:49 fill in a bubble and get it over with 00:25:51 actually 00:25:52 a smart move for you as a test taker 00:25:58 questions 00:26:02 know how to say this any better than this 00:26:06 but 00:26:07 is 00:26:09 total 00:26:11 the questions once you've read a lot of them 00:26:17 you're hoping that something in there 00:26:20 causes this little 00:26:21 where you say 00:26:26 i kinda do remember a little about that 00:26:30 to know the answer for sure but maybe you 00:26:35 a more educated guess 00:26:39 sometimes when you leave things to the end 00:26:40 you get lucky sometimes 00:26:42 you know you're lucky 00:26:43 have no clue 00:26:46 and so then you go ahead and market 00:26:48 but the second reason 00:26:50 that 00:26:52 has to do with time 00:26:56 this 00:26:58 i have heard this 00:27:00 story 00:27:00 from students 00:27:04 me that they just got a test back in one of 00:27:09 their classes 00:27:10 and their work fifty questions 00:27:13 on the scantron 00:27:15 when they got it back 00:27:16 they saw 00:27:18 nine of fifty and some other ones along the 00:27:23 way 00:27:24 and they show it to me 00:27:25 here's what they say 00:27:29 except i wasn't paying attention to the time 00:27:32 a little earlier 00:27:34 teacher said 00:27:38 that horrible thing teachers say three minutes 00:27:40 and then they looked out of it 00:27:42 really fast and and then gold quickly and 00:27:46 write bad things happen 00:27:50 they looked at the test itself 00:27:52 and they were so 00:27:54 frustrated 00:27:55 by the fact that they made 00:27:56 questions on the test for them they knew those 00:28:02 answers 00:28:03 were her reading at the end 00:28:06 of this is that usually when they tell me 00:28:12 that the next thing they say is 00:28:15 and i missed a day 00:28:16 or be received by 00:28:19 those right which they should have 00:28:23 up to the next great 00:28:26 to follow is that you're trying to get all 00:28:33 the easy questions done 00:28:36 in the first fifteen twenty minutes of a test 00:28:39 before the time becomes an issue at all 00:28:42 be for you 00:28:45 you're kind of funny did all the easy ones 00:28:50 you're taking them and putting them in your 00:28:54 pocket saying okay 00:28:55 those are safe those are done 00:28:56 and then at the very end if you have to rush 00:29:00 it's a lot better to rush on these because 00:29:03 what are you going to do make a careless mistake 00:29:06 it to the end hope for lock-in if not just 00:29:10 lucky 00:29:13 your way through a test and squeeze out every 00:29:17 possible point that you can that's 00:29:19 on that so far i have a couple more things 00:29:23 that i want to share about it 00:29:24 cocaine again ah... 00:29:26 and then circulated and uh... my job later 00:29:32 mister contact all your teachers and tell 00:29:35 later in the same day as the workshop 00:29:40 that i want to share with you about this and 00:29:45 the first one 00:29:48 out 00:29:50 through this about the importance of using 00:29:55 their hands 00:29:56 to cover up the choices and probably 00:29:59 do when they have a multiple-choice tests 00:30:05 a good thing 00:30:08 is that they read the question 00:30:10 look at all the choices and then they look 00:30:13 sounds like what you do 00:30:17 um... 00:30:18 that a student might have 00:30:23 question first rather than doing it the other 00:30:28 way 00:30:29 what's the 00:30:30 the purpose of that 00:30:32 vague 00:30:35 memory to kick in better that's true but there's 00:30:39 something alice 00:30:44 has one teacher 00:30:47 who like you think based 00:30:48 to treat me on task they don't at least i 00:30:54 hope not 00:30:54 so when you read all multiple choice question 00:31:01 and then you have the for 00:31:05 answers 00:31:07 okay 00:31:10 lawful process 00:31:14 it's called the right answer 00:31:16 have a name believe it or not and there are 00:31:20 words because even though they're similar 00:31:24 they describe their only reason for living 00:31:28 and that is 00:31:29 their decoys or distract urs 00:31:32 they have is to sit there trying to look really 00:31:37 good 00:31:38 right answer 00:31:41 and what a lot of teachers do 00:31:43 uh... intentionally or otherwise 00:31:46 of them 00:31:50 could be right sometimes all four and so 00:31:56 students' minds a lot 00:32:00 if they don't do what i've mentioned to you 00:32:03 they read the question 00:32:05 and then they sit back and look back and forth 00:32:09 and they think 00:32:12 the right answer 00:32:17 but actually she looks pretty 00:32:20 well actually in india looks pretty good too 00:32:22 your dad 00:32:23 students tell me that they had that happen 00:32:28 close their eyes 00:32:31 wait what it might book say about that are 00:32:35 seconds they say they open their eyes like 00:32:38 this 00:32:40 i'm in a little bit more 00:32:41 the teacher 00:32:44 to tricky or confuse you with the wrong answers 00:32:47 again tests are part of mouth 00:32:49 the wrong path because the teacher is tricky 00:32:55 uh... 00:32:56 so that you can read the question and then 00:33:01 fink 00:33:02 that's always nice to do on a test 00:33:04 and usually when you do that you feel more 00:33:09 to you 00:33:12 and you find them 00:33:13 and i can do this kind of is a good uh... 00:33:17 uh... confidence booster during a test 00:33:20 now uh... having said that though 00:33:23 mentioned and i don't know if you have a teacher 00:33:27 like that this semester not 00:33:30 some teachers are in love with 00:33:33 of the above all these other combinations 00:33:40 for separate 00:33:43 choices right 00:33:44 if you have a teacher who loves those 00:33:47 other kinds of things 00:33:48 you hear except 00:33:51 so for example 00:33:54 the question 00:33:58 and you look and you find it and its day 00:34:04 stop for a second and you work and if you 00:34:07 see on all of the above or both in b 00:34:10 that the only write one 00:34:14 if you say no that's the only one then go 00:34:18 sensitive to that because teachers are different 00:34:23 have had one 00:34:25 who likes this format but a lot of teachers 00:34:29 like this 00:34:31 except 00:34:35 it 00:34:37 like that 00:34:40 five years and you'd never be able to know 00:34:44 one 00:34:47 doesn't belong 00:34:49 the smart move is to do 00:34:51 of variation of this again which is 00:34:53 and i'm going to look at the choices 00:34:58 about this so what do i know that is true 00:35:02 i know that you know that 00:35:05 hand away academia 00:35:08 the wrong answer 00:35:10 so obvious so again it's the same idea just 00:35:15 teacher style of asking questions 00:35:22 share with you kind of in closing on this 00:35:27 the first one 00:35:28 kinda serious and actually it is 00:35:33 the benefits of taking a test this way bar 00:35:37 huge be really helps students 00:35:39 to do with that word that i made a big deal 00:35:43 of 00:35:45 and that is 00:35:46 that one 00:35:47 recurring nightmare i'd wake up in the middle 00:35:52 of the night and all that 00:35:53 to do this i would get to a test 00:35:58 i wouldn't do everything that i 00:36:00 taught you 00:36:01 and i would get to the first question 00:36:03 and read it and think 00:36:05 i get to that later 00:36:06 one spot on the scantron than every answers 00:36:12 any test you ever take and if you think about 00:36:17 three in a row you skip one 00:36:20 you answered one you skipped two in a row 00:36:23 place 00:36:27 never did that because i was 00:36:32 i did and this is my suggestion to you on 00:36:36 that 00:36:37 and i've got both of these things going on 00:36:42 answer and i was ready to market i would take 00:36:45 my finger of my non writing here 00:36:47 and point to the question number in the booklet 00:36:49 on the scantron and look back and forth a 00:36:53 match up in the market 00:36:55 do have to be careful because if you kind 00:36:59 of careless and quick about it 00:37:01 don't come back and hunt me down if you do 00:37:04 that so i've given you the warning on that 00:37:06 to share 00:37:09 is a quick little uh... 00:37:11 tests are 00:37:17 when they take a test 00:37:20 uh... when i was in college 00:37:23 my personal all-time record 00:37:26 this 00:37:28 is that fight took attest one time 00:37:31 so pretty long test yet 00:37:37 and i had studied hard in all that but i was 00:37:42 you know that's normal 00:37:45 my calculation and then i started here because 00:37:51 i thought u 00:37:55 acceptors what happened 00:37:56 kinda recognized it was like one of those 00:38:00 challenging ones man 00:38:05 for 00:38:06 six seven no answers going down 00:38:09 event 00:38:12 the first ten 00:38:17 question the answer popped in my head they 00:38:22 took my hand away 00:38:24 finally i got one and i actually marked blah 00:38:30 blah my scantron okay 00:38:33 could be sitting right next to each other 00:38:38 same knowledge of the subject of their equal 00:38:42 one today than anyone could get a c ruby 00:38:46 because of how they 00:38:48 a test testing is very you know emotional 00:38:52 kind of freeze-frame my performance so far 00:38:56 for this 00:38:57 one is this 00:39:01 here 00:39:03 to answer 00:39:08 i've tried it 00:39:10 retro front eleven right 00:39:11 how many of those are right 00:39:14 one 00:39:15 kate what grade is that 00:39:18 like the worst grade ever and i couldn't make 00:39:22 it stop right there at the end 00:39:24 but what's a bit and you know the start falling 00:39:27 any good so i didn't look at it that way 00:39:32 if i answered so far 00:39:36 one how many are right 00:39:38 one 00:39:39 hit what great is that 00:39:42 and keep going 00:39:43 i could sit there and i think 00:39:47 on this test and i am 'cause how could you 00:39:51 do better than perfect 00:39:53 have a how about those and ice now 00:39:57 i had enough experience with this denial 00:39:59 test i'd answered a lot of questions i skip 00:40:03 some more and then when i went back up here 00:40:05 of these 00:40:09 my brain was on the off to a very slow start 00:40:14 today 00:40:15 and then hum 00:40:17 when i dot the test back a week later 00:40:20 getting the highest score in the whole class 00:40:25 i got a score of ninety six out of a hundred 00:40:28 over my shoulder 00:40:33 right here 00:40:34 you would have sent to see how you do 00:40:38 i'm going right down the tubes but um... 00:40:43 and i don't know why this is you don't either 00:40:45 you feel like you're ready as soon as you 00:40:48 get the test and you read the questions 00:40:50 your brain is just 00:40:53 smooth firing great 00:40:54 other times 00:40:56 it isn't 00:40:57 an old car 00:41:01 but if you ever try to start an old car 00:41:04 uh... and all that and then once it starts 00:41:07 you can even driving sometimes when you're 00:41:12 questions your brains like an old car 00:41:16 kick into gear 00:41:19 well if you don't know that if you don't 00:41:22 start getting very nervous immediately and 00:41:26 fall apart so that's again another reason 00:41:30 for looking at it this way 00:41:32 is that again if you haven't studied 00:41:34 and this happens 00:41:35 get nervous 00:41:36 commonalities just not right now so come back 00:41:42 to it later and against a as relaxed as possible 00:41:45 that's the whole purpose here 00:41:46 um... 00:41:48 persons manana 00:41:50 this sign in sheet for this one always make 00:41:54 otherwise you're in big trouble 00:41:58 by now you need a memory workshop 00:42:02 okay this debt 00:42:03 so i'll go ahead and uh... 00:42:04 for today thanks for coming and ah... 00:42:09 up next semester if you're around uninterested