Комментарии:
wow, that was definitely the best explanation I've seen
Ответитьso basically we just copied the eye
the lens - lens of the eye
aperture - iris
sensor focus plane - retina
Geeeeee, this is great!
Ответитьgreat work thank you
Ответитьabsolutely 🐐'd vid!
ОтветитьReally u deserve Gold play button, u cleared so many concepts of camera mechanism which we never heard before, u brooke down into individual pixel which is so impressive
ОтветитьCommenting for the algorithm. This is so underrated. Keep making videos that explain these concepts using 3D models. Also great choice in music, it made it more mesmerizing
Ответитьwhy bother with focus? blur is cringe
Ответитьbut why only a single color is permitted to pass through each pixel?
Ответитьthis is an awesome video
ОтветитьVery nice
ОтветитьI wanted to know how the color created. With one photo diode store signal of r g b filter?
ОтветитьWow, amazing work!
ОтветитьMagic
ОтветитьVery cool but lower aperature means brighter, not darker
ОтветитьVery well explained. Actually, I was watching daguerreotype photos because I am from the time of B/W film emulsions to Transparencies to Digital Photography. I suggest that you may further treat topics such as:
1). The relationship of f-stop numbers with the speed & effectiveness of the lens; alongside explaining why lower f-stop means better/expensive lenses. 2). You could also de-abbreviate to explain the ISO both in Emulsion & Digital Photography. Why it took so long to come to Digital Photography when Diode, Semi-Conductors & solid state had long forayed into the industry.
Incredible effort and teach thank you so much!!!
ОтветитьSawa sawa.... okey
ОтветитьThanks! This will help a ton with my school project!
ОтветитьLoved the animation. But I think the f1.4 should have been brighter than f22.
ОтветитьThe bast explanation I can find.
ОтветитьI still not get it 😂
ОтветитьHarikasın dostum
ОтветитьAmazing Video. Helped me a lot on the research for my final exam
Ответить🙏🌹🇮🇳 PSSPPP 🇮🇳 PALOJU JAI SRIRAM 🇮🇳🌹🙏
Ответитьgreat job
ОтветитьExcellent stuff., Thanks alot.
ОтветитьCan you make the same video on iPhone main camera, Including how it works ? What are the camera components and its importance ?
ОтветитьThis helped me understand how it works so well
ОтветитьNow I know...
Ответитьthank you for making such a wonderful video🤗
ОтветитьSensor is made up of three min layers: micro lens, colour filter and photo diode.
Red photons for this pixel then hit the diode which then converts the photons into electricity and stores the charge of electron. The more photos that hit the diode, the greater the electric charge will be. Each pixel also has a amplifier which takes the built up charge and increases it. This amplification process is referred to as ISO. The camera processor will layer read the charge to create the strength of that pixel. Now that all the pixel have a charge to them, the camera begins to read the sensor row by row, sending the charges down the sensor and out to the cpu for processing.
You deserve millions of subs
ОтветитьDude, really good work. You have a talent. Thanks from Texas.
ОтветитьIts awesome 👏
ОтветитьExcellent Explanation with animation. Highly Appreciate your channel
ОтветитьI went through maybe 7 videos that were dudes talking about how to take photos before I got to your video, which not only informed me of what I sought, it connected pieces I've known for years but never saw the greater picture of. This work is SO PERFECTLY succinct and informative, I commend you. It's masterful.
I kept thinking 'why isn't this front and center on 'Wikipedia: camera' ?? Alas, maybe it's just out of the focal plane. Eh?? Eh?!
Oh God! So underrated! My snappest salute to you!
Ответитьthank you, more about the science of photography, please.
Ответитьwtf
ОтветитьWow amazing!
Ответитьno informative try again baby
Ответитьvery cool video u deserve a lot more subs
Ответитьbrilliant!
Ответитьgreat effort. keep up the good work
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