Bro, thanks alot for giving this kind of knowledge for free. I have no words to thanked you. TH-cam is created mainly for people like you. Will recommend your channel to my friends and fam. Thanks again bro.
Really 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
Commenting 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
I 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?!
This is your best one yet.. would you do a continuation on how the cpu processes it and then displays it on the screen? What’s the mechanics behind that? 🙌🏻👍🏻
This explained so much and made a lot of topics clear to me. I had so much trouble finding a source as descriptive as this video.I am a lot more wiser now.
Sensor 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.
Cameras are amazing. I have always wanted to understand how we can capture pictures onto a screen or a paper. I need to re watch but this was great also you have a great channel. Subscribed.
3:01 I feel the lens refracts the same amount so the focal point doesn't change behind the lens here with the object moving closer or farther away. I at least feel there is more going on here than animated and talked about and so if anyone can explain I'd would appreciate. It would make sense if it was something to do with the focal point in front of the lens but I can't really think of what idk
It was such a great video! There's just one thing that I'm intrigued about is that why wasn't the image for the wine bottle flipped when the aperture was low? Since it has already converge before reaching the sensor The video was still great tho! 🎉
This video says that "lens is made of lenses." In fact, the round thing on the front end of every camera is called objective, not lens. Most objectives are made of lenses. They are called refractive objectives. Reflective objectives (a.k.a. mirror objectives) and catadioptric objectives are used almost exclusively by scientists and soldiers.
Very 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.
Can you explain something in the graphic at the end of the video? It showed every other pixel being green, and then blue pixels were every other pixel on every other row, with red pixels being every other pixel on every other row. This would be a 50% green, 25% blue, 25% red ratio. Is this what camera’s actually have? Why?
I think I can finally understand how the Circle of Confusion forms, for which I am most grateful! Still, I can't understand this one aspect in the animation: why doesn't the focal point from the bottle opener form at a different distance once the aperture is changed to F/22, when the focal point from the bottle at F/22 forms earlier than it did at F/1.4 (the same can be said of the cork)? Does stopping down: A) decrease ONLY the diameter of the cone of light that forms the focus point (seems to be the case with the corkscrew), or B) does it decrease both diameter AND length (seems to be the case with the bottle and cork). Please, can you help me understand this anomaly? If it is depicted properly, why is there a change in distance of the focal points (of out-of-focus objects) when changing aperture, while no change with the in-focus object? Please, can you help me understand this? Thank you. UPDATE: I've learned that the answer to my question is that of A): the length of the cone of light to the point of convergence/focal point is not affected by change in aperture
can't imagine how much effort went into animating that. The lens stuff in particular, wow!
The effort was really simple and efficient. Respect
yOUR page is so underatted.. You deserve so much more recognition
Thank you!!
And much more videos
Couldn’t agree more !!
This is the best explanation of the funkton of the aperture and depth of field i have ever seen. I always wondered how this really works
THE BEST INFORMATIVE ANIMATION EVER, DESERVES A BIG APPLAUD AND REWARD. OUTSTANDING. GOD BLESS
Really well described and clearly a lot of effort put in. I find it amazing that more people do not follow your work. Keep it up!!
Exceptionally good explanation and visuals! Hands down the best one I've seen on TH-cam.
Thanks! Glad you liked it!
So well explained and the animation was really good too. I can see you put a lot of effort and knowledge to make this video. Thanks for this video.
Thank you so much!! Yes they do take a while but comments like these make it all worth it! Cheers!
@@animationsxplaned8835awwww how sweet ❤ 😊 Do you know about Nepal
As a photographer, it was very interesting to watch
Bro, thanks alot for giving this kind of knowledge for free.
I have no words to thanked you.
TH-cam is created mainly for people like you.
Will recommend your channel to my friends and fam.
Thanks again bro.
That’s very kind! Glad you enjoyed it!
Loved the animation. But I think the f1.4 should have been brighter than f22.
Yes, that threw me off, he mixed those up
Really 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
Woow. Such a clear explanation. I finaly found what is an ISO is. Awesome
Commenting 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
I 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?!
This is your best one yet.. would you do a continuation on how the cpu processes it and then displays it on the screen? What’s the mechanics behind that? 🙌🏻👍🏻
This explained so much and made a lot of topics clear to me. I had so much trouble finding a source as descriptive as this video.I am a lot more wiser now.
dude keep upload videos... this is a great channel
loved the video !! it was so easy for me to understand. great animation. i wonder why there are so less views :(
Amazing Video. Helped me a lot on the research for my final exam
Beautiful explanation, thank you for this amazing work!
wow, that was definitely the best explanation I've seen
you deserve way more views.. good job.
That's so cool! This confirmed my suspiciouns about how cameras work! I only got the lenses confused because well that stuff is weird
Your SOOO Underated, This explained it all! Thank you!
amazing explanation, thank you so much!! Really helps in terms of a medical application as well with ophthalmology
Why you don't have views.. The content is really amazing. Good job dude. I want to help you so much :( Hope somehow the algorithm picks you up
Dude, really good work. You have a talent. Thanks from Texas.
Excellent explanation. I watched a lot of videos and this is the best
Insanely good video. Congratulations very good content.
Oh God! So underrated! My snappest salute to you!
You deserve millions of subs
One day! 🤞🏼
Sensor 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.
Thank you for making this video. It is so well made & you explained everything perfectly & simply.
Cameras are amazing. I have always wanted to understand how we can capture pictures onto a screen or a paper. I need to re watch but this was great also you have a great channel. Subscribed.
Wow, amazing work!
Thank you!
These are brilliant animations
Needed to see this to understand. Thank you!
I really like your videos. Can you do one on how radios work?
The quality you presented is excellent 👏
Most fantastic video ever seen...beautifully done mate.!!!.... words are not enough.... 👍🏻👍🏻👍🏻
Excellent Explanation with animation. Highly Appreciate your channel
This video is the best. It cleared all my doubts🙌
There should be an Oscar for Best Technical Description
Thanks! This will help a ton with my school project!
Glad I could help!
This helped me understand how it works so well
Best way to explanation... Keep it going bro
Genuinely nice explanation and earnest effort! Thank you for the video!!
3:01 I feel the lens refracts the same amount so the focal point doesn't change behind the lens here with the object moving closer or farther away. I at least feel there is more going on here than animated and talked about and so if anyone can explain I'd would appreciate.
It would make sense if it was something to do with the focal point in front of the lens but I can't really think of what idk
Wow! I love this. Well done. What software do you use for your animations?
superb video....!! very well explained.---- am shocked----- Why such a low view rate.----Its absolutely amazing animation.
It was such a great video!
There's just one thing that I'm intrigued about is that why wasn't the image for the wine bottle flipped when the aperture was low? Since it has already converge before reaching the sensor
The video was still great tho! 🎉
brilliant man!! appreciate the effort
This video says that "lens is made of lenses." In fact, the round thing on the front end of every camera is called objective, not lens. Most objectives are made of lenses. They are called refractive objectives. Reflective objectives (a.k.a. mirror objectives) and catadioptric objectives are used almost exclusively by scientists and soldiers.
absolutely 🐐'd vid!
Haha! Thank you 🙏🏼
Very 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.
Now I understand what aperture and focus used for
Impressive work👏
Thank you! Cheers!
amazing video with great animations.. didn't lose my interest for even a sec..
thank you for making such a wonderful video🤗
Awesome anixplanation
Incredible effort and teach thank you so much!!!
my knowledge has been increased.
Thank you very much. The concept is now clear
Thank you! My questions are now answered
I really enjoyed 🔥❤️ thanks for this information 😊
very cool video u deserve a lot more subs
This was a pretty good video
Amazing video you have made. Really good. Do you use blender for this...
Nicely done... Renderings are good...
great effort. keep up the good work
Good work bro
Good video thanks for the effort
Nicely explained. Which software used for this...?
Can you make the same video on iPhone main camera, Including how it works ? What are the camera components and its importance ?
thank you, more about the science of photography, please.
those videos are gem. thanks
Great content❤
Great work!! Thank you so much
You are most welcome!
this is an awesome video
Geeeeee, this is great!
Fantastic video, thank you.
Well explained 👍👍
This is so good
Great work
I wanted to know how the color created. With one photo diode store signal of r g b filter?
Wow amazing!
That’s a LOT OF PHOTOS IN A YEAR
Excellent stuff., Thanks alot.
It is an amazing video .😯😯
Can you explain something in the graphic at the end of the video? It showed every other pixel being green, and then blue pixels were every other pixel on every other row, with red pixels being every other pixel on every other row. This would be a 50% green, 25% blue, 25% red ratio. Is this what camera’s actually have? Why?
Well I'm not sure but most screens today have the same structure, more green then everything else. Probably because we like seeing green, idk
It has to do with the way the human eye works.
I think I can finally understand how the Circle of Confusion forms, for which I am most grateful! Still, I can't understand this one aspect in the animation: why doesn't the focal point from the bottle opener form at a different distance once the aperture is changed to F/22, when the focal point from the bottle at F/22 forms earlier than it did at F/1.4 (the same can be said of the cork)? Does stopping down:
A) decrease ONLY the diameter of the cone of light that forms the focus point (seems to be the case with the corkscrew), or
B) does it decrease both diameter AND length (seems to be the case with the bottle and cork). Please, can you help me understand this anomaly?
If it is depicted properly, why is there a change in distance of the focal points (of out-of-focus objects) when changing aperture, while no change with the in-focus object? Please, can you help me understand this? Thank you.
UPDATE: I've learned that the answer to my question is that of A): the length of the cone of light to the point of convergence/focal point is not affected by change in aperture
Its awesome 👏
this is gold.
great work thank you
good, I have question: How a film camera works?
So the sensor capture the image by having a charge when hit by a light source? is that right lol.
awesome bro
thank you
guess at 2:00 f-stops should be in reverse order
This channel is like Jared Owen
great job