To see subtitles in other languages: Click on the gear symbol under the video, then click on "subtitles." Then select the language (You may need to scroll up and down to see all the languages available). --To change subtitle appearance: Scroll to the top of the language selection window and click "options." In the options window you can, for example, choose a different font color and background color, and set the "background opacity" to 100% to help make the subtitles more readable. --To turn the subtitles "on" or "off" altogether: Click the "CC" button under the video. --If you believe that the translation in the subtitles can be improved, please send me an email.
this is what teachers in every corner of the world shud use to teach. this is 100 times efficient than what they explain in air. this shud be mandatory in all school. great work sir.
Thanks. If you have not already seen it, I go into a lot more detail about using sine waves to make patterns in my video on Fourier Transforms at the following link. ua-cam.com/video/r18Gi8lSkfM/v-deo.html
You know what UA-cam lacks? A button to like every single video from a certain channel. Yours in particular. VERY helpful content. Although I'm not even studying this I still understand it with ease!
I recently created a Patreon account for people who want to help support my channel. The link is on my UA-cam home page. Also, in case, you have not already seen them, I uploaded several other videos recently. As always, for each video that you like, you can help more people find it in their UA-cam search engine by clicking the like button, and writing a comment. Lots more videos are coming very soon. Thanks.
Physics Videos by Eugene Khutoryansky like the video because when u describe the phenomenon your all words are clear it is more for me THANK U VERY MUCH hope for more videos I am not be disappointed 👍👍👍☺
how do you decide for how mny elementary waves are in the slit and what distance the have from each other? wouldn't everything look different when you have more of them? more orders?
The explaining style of this channel is great! The slow speed gives the learner enough time to think, to imagine. It's important for better understandings. Thanks for making such videos!!
This is the best and most illustrative tutorial on diffraction I have ever seen. Such animations are the perfect tool for really understanding such phenomena. Well done 👍
I usually do not like music in the background of educational videos. But there is something about classical music that fits math and physics beautifully. It compliments it instead of distracting.
Never thought classical music playing in the background of a physics' video would help me to understand the concept more clearly...❤❤It's so peaceful and soothing for physical optics..
Thank you so much for putting in so much detail in such a complex topic. I really appreciate the time you guys put in to y'alls video. I learned Fourier transform, electric current, and now diffraction interference from the videos you guys provide. Makes complicated topics into easy visualized understanding. Thank you. Keep up the good work!
Wow. This was EXACTLY the level of clarity I was looking for and would be satisfied with when searching the web about how diffraction works. Delicious video. Exceeded my expectations.
Why does this only have 7000 views?? It should be viewed by all physics/engineering students all over the world, it was amazing! I'm gonna tell all my class mates about this channel, and once I have a job, I'll be sure to donate too. :)Thank you so much!
Thanks for that really great compliment, and thanks for telling your classmates about my channel. And I really appreciate your plan to also donate when you are able to. Thanks.
very good explanation you should really watch this video if you are stuck in the understanding of the ydse or diffraction through single silt.Kudos to the person who made this video possible.
You can help translate this video by adding subtitles in other languages. To add a translation, click on the following link: ua-cam.com/users/timedtext_video?ref=share&v=NazBRcMDOOo You will then be able to add translations for all the subtitles. You will also be able to provide a translation for the title of the video. Please remember to hit the submit button for both the title and for the subtitles, as they are submitted separately. Details about adding translations is available at support.google.com/youtube/answer/6054623?hl=en Thanks.
I loved every single bit of this video . Except the music ... It slowly makes one grow insane when learning a pretty complex topic. It's cloud nine of knowledge.
I have no words in which I can thank you but i one thing, this is the only video i think which can explain it all , i mean its best... thanks a lot for making such a video ...
Sometimes understanding physics and imaging became hard but through ur well represented visual and slow lecturing video i will get time to think, imagine ,and makes relation b/n different concepts.Thanks a lots sir.
Eugene: I really liked the phasor technique when the slit (d) becomes appreciably larger than lambda. I hadn't seen that before. A few questions about that: 1) This reduces to the standard Young Experiment when d>Lambda, does it make any sense to use a sub-source separation smaller than lambda? 4) What does a negative phasor magnitude imply (Partial trough?) 5) Are these techniques more applicable for fluid-waves rather than light-waves of single color? On a more important note, I presume these techniques are only an approximation to QED? As you know, QED produces ("amplitudes"--->probabilities at the back plane). I grapple with how simple phasor techniques which don't include quantum effects could match the mathematical Sum-over-history/Renormalization of QED. Thanks again for your beautiful vids.
wow! this video is so helpful to my understanding of diffraction and interference. i have an excellent optics professor but lecture-style learning is inherently limited. sometimes you just have to sit back, get stoned and watch these mathematical concepts visually and graphically.
Finally, I was struggling to understand Wave Optics a lot until this video. Amazing, really amazing animation. If it was possible, I would've liked you to also dive into the mathematical aspects of it such as why the first dark fringe would appear when the path difference is equal to the wavelength and how it differs from YDSE and such. Still, I was finally able to understand the phenomena and I can take it from here. Thank you so much.
That cat which is in this video animation was confused like me before watching this video 😂😂😂😂but now that cat is become master in this concept 😂😂😂😂🤣🤣🤣🤣🤣and me also 😂😂thank u Eugene 💕🥰❤️👍u did a great job..
By far the best illustrated and explained series of lectures I've seen on the subject. There are some very odd experiments I have seen not very well illustrated but quite well explained; in which clever attempts where made to trick electrons into taking the wrong path. All attempts failed. The only explanation was that somehow the electron 'knows' ahead of time whither or not a barrier will be there thus always following the shortest path in the now. This left me scratching my head for years! It would be a challenge but I'm wondering if Eugene could produce a video addressing this phenomenality?
Such an awesome explanation.....I am really pleased as well as glad after understanding all the concepts of diffraction and interference so clearly....thanks a lot ma'am..
thanks sir for your one of the greatest videos again you have really great mind to made it i will see on the topics of planck foton theory and meaning of h what is h and how is work in equations
really a great explanation 10/10 and the graphics/animations are so ugly you can't help but love them. I specially enjoyed the phase space animation with a butt load of vectors, that was funny/cool
Thank you sir once again. Please add "How carrier wave and other waves are combined in electronic circuit" in future videos. I am having problems with this topic. Thanks a lot.
The vertical axis, coming out perpendicularly to the x-y grid, is the argument of sine, say θ. This helix that wraps around this axis looks like a sine function of x vs θ if you look at it from the side and ignore the y-axis (as he did in the video). Likewise, if you were to look at it from a side where the x-axis is into the screen, i.e. y vs θ, you would get a cosine function. The reason this works is because of complex numbers: the green helix he plots is the function e^iθ, where i is the imaginary unit. Euler's formula states that e^iθ = cos(θ) + isin(θ). cos(θ) is the real part of e^iθ and sin(θ) is the imaginary part of e^iθ (because it is multiplied by i). So in effect the function e^iθ maps θ to two functions: sin(θ) and cos(θ), and you can denote each of them on a separate axis (so one axis for θ, one for sin(θ), and one for cos(θ)). If you look at only one part of e^iθ (the green function he plots) it's as if you only look at sin(θ) or cos(θ), depending on what side you look from.
I think you SHOULD credit Dr R Feynman for the representation of the methodology you introducing here. This will let interested people have right references to read more about this!
Amazing video! I really love how you're building off and combining old topics you already covered. One thing though, at around 12:38, doesn't that green line passing into the negatives on the x-axis suggest a negative amplitude, or is the only significant thing the actual length of the line? And if so, is there anything significant about the last point passing into the negatives? Thanks
+pendalink, it is only the length of the green line that signifies the amplitude of the sum of the waves. The fact that its X coordinate is negative doesn't matter, since the green line is going to rotate around the theta axis as theta increases, and I was just showing the cross section for when theta is zero. And thanks for the compliment about my video.
To see subtitles in other languages: Click on the gear symbol under the video, then click on "subtitles." Then select the language (You may need to scroll up and down to see all the languages available).
--To change subtitle appearance: Scroll to the top of the language selection window and click "options." In the options window you can, for example, choose a different font color and background color, and set the "background opacity" to 100% to help make the subtitles more readable.
--To turn the subtitles "on" or "off" altogether: Click the "CC" button under the video.
--If you believe that the translation in the subtitles can be improved, please send me an email.
Legendary animation 😘😍😘😍😘😍😘😍😘😍😘😍😘😍😘😍I want this only 😘😍😘😍😍😘😍😘😍😘😍😘😘😍
this is what teachers in every corner of the world shud use to teach. this is 100 times efficient than what they explain in air. this shud be mandatory in all school. great work sir.
Yes exactly
Bro teachers in school are not this much indepth knowledge holders. Only a highly good BSc with Physics person can teach of this level.
communism
S saar
I disagree it takes a lot of effort to make something of this level and isn't practical to be followed worldwide 😐
How does Eugene only have 220k subscribers? Everything about this channel is 10/10
Thanks for the compliment.
The concept of sine wave was beautiful
Thanks. If you have not already seen it, I go into a lot more detail about using sine waves to make patterns in my video on Fourier Transforms at the following link. ua-cam.com/video/r18Gi8lSkfM/v-deo.html
You know what UA-cam lacks? A button to like every single video from a certain channel. Yours in particular. VERY helpful content. Although I'm not even studying this I still understand it with ease!
+Asen Georgiev, thanks. I am glad to hear that my content is helpful, and I am glad that you like mt videos. Thanks.
Well, at least we have subscribe as the next best thing
I recently created a Patreon account for people who want to help support my channel. The link is on my UA-cam home page. Also, in case, you have not already seen them, I uploaded several other videos recently. As always, for each video that you like, you can help more people find it in their UA-cam search engine by clicking the like button, and writing a comment. Lots more videos are coming very soon. Thanks.
+Eugene Khutoryansky Maybe once I have a job.
Physics Videos by Eugene Khutoryansky like the video because when u describe the phenomenon your all words are clear it is more for me
THANK U VERY MUCH
hope for more videos I am not be disappointed 👍👍👍☺
how do you decide for how mny elementary waves are in the slit and what distance the have from each other?
wouldn't everything look different when you have more of them? more orders?
3D animation really helps make everything crystal clear! Would recommend this video!
Thanks. I am glad you liked my video.
The explaining style of this channel is great! The slow speed gives the learner enough time to think, to imagine. It's important for better understandings. Thanks for making such videos!!
Thanks for the compliments.
You should win a Nobel prize for making these videos... absolutely incredible
Thanks for that really great compliment.
@@EugeneKhutoryansky Of course! Well done 👍
Speechless and appreciation cannot be expressed in words. Making animation with concept is a big deal. Thank you for your hard work.
Thanks for the compliments.
This is the best and most illustrative tutorial on diffraction I have ever seen. Such animations are the perfect tool for really understanding such phenomena. Well done 👍
Thanks for the compliments.
This is one of the best videos I've seen on interference and diffraction. Thanks a lot.
Thanks for the compliment.
It's impossible to ever get disappointed by this channel...
; )
Thanks.
Correct
This has to be the best video on a physical concept i have watched in my life. Thank you so much!
Glad you liked my video. Thanks.
I usually do not like music in the background of educational videos. But there is something about classical music that fits math and physics beautifully. It compliments it instead of distracting.
Never thought classical music playing in the background of a physics' video would help me to understand the concept more clearly...❤❤It's so peaceful and soothing for physical optics..
This is the best explanation on aperture and depth of field on photography.
Thanks for the compliment.
Thank you so much for putting in so much detail in such a complex topic. I really appreciate the time you guys put in to y'alls video. I learned Fourier transform, electric current, and now diffraction interference from the videos you guys provide. Makes complicated topics into easy visualized understanding. Thank you. Keep up the good work!
Thanks for the compliment and I am glad to hear that my videos are helpful.
Wow. This was EXACTLY the level of clarity I was looking for and would be satisfied with when searching the web about how diffraction works.
Delicious video. Exceeded my expectations.
I am glad you liked my video. Thanks.
My heart aches for the students that still haven't find this chanel
Your videos are fantastic. The animation really helps for visual learners like me and to consolidate textbook type learning. Thank you.
Thanks. I am glad to hear that my videos are helpful.
The way you animated sin wave was amazing❤
This is so good I want to study here now ! This should be the way calm voice , calming music , perfect explanation from tip to toe!
Thanks. I am glad you like my videos.
You nailed it. After a long search, i found how interference happening through a single slit.
I am glad you liked my video.
Why does this only have 7000 views?? It should be viewed by all physics/engineering students all over the world, it was amazing! I'm gonna tell all my class mates about this channel, and once I have a job, I'll be sure to donate too. :)Thank you so much!
Thanks for that really great compliment, and thanks for telling your classmates about my channel. And I really appreciate your plan to also donate when you are able to. Thanks.
very good explanation you should really watch this video if you are stuck in the understanding of the ydse or diffraction through single silt.Kudos to the person who made this video possible.
Thanks for the compliment about my video.
The best geometric description of wave interference I have ever watched
Thanks for the compliment.
How beautifully one can explain....!
You're the best.....❤️❤️❤️🙏🙏
Thanks for the compliments.
Videos like this are so important in advancing the understanding and teaching of physics. Your videos are always fantastic.
Thanks.
Where have you been all my life, Eugene? This video is amazing - thanks for the thorough work you put into explaining these concepts!
Glad you liked my video. Thanks.
Wow. I could have never been able to imagine this. Thanks a lot. Your animation are just fantastic, phenomenal.
Very helpful video really good animation I totally visualized the concept thanks
Yep completely agreed, and the music is so conducive to the learning of the concepts too!
The sine wave analogy was really intruiging! Kudos to this amazing video!!!🎉
Thanks. I am glad you liked my video.
this is a wonderful way to convince the students about the behaviour of waves😇😇thank you
Thanks.
This channel should have 50 million subscribers... ♥
Thanks. Hopefully one day it will happen.
@@EugeneKhutoryansky Amin
this video has broguht me great joy. it has cured my depression. 🥳 i am 7 years old
You can help translate this video by adding subtitles in other languages. To add a translation, click on the following link:
ua-cam.com/users/timedtext_video?ref=share&v=NazBRcMDOOo
You will then be able to add translations for all the subtitles. You will also be able to provide a translation for the title of the video. Please remember to hit the submit button for both the title and for the subtitles, as they are submitted separately.
Details about adding translations is available at
support.google.com/youtube/answer/6054623?hl=en
Thanks.
6:20 thanks for showing us the DNA and how its made.
I loved every single bit of this video . Except the music ...
It slowly makes one grow insane when learning a pretty complex topic.
It's cloud nine of knowledge.
I have no words in which I can thank you but i one thing, this is the only video i think which can explain it all , i mean its best... thanks a lot for making such a video ...
Thanks. I am glad you liked my video.
My god! This is the best explanation I have ever seen.
Thanks for the compliment about my explanation.
Best explanation I've ever seen.It is really amazing.Thank you very...... much.
Thanks for the compliment about my explanation.
The 'single hole' interference pattern blew my mind the first time.
Sometimes understanding physics and imaging became hard but through ur well represented visual and slow lecturing video i will get time to think, imagine ,and makes relation b/n different concepts.Thanks a lots sir.
Thanks. I am glad that my videos are helpful.
@@EugeneKhutoryansky thanks sir. To see your works we eager to know about u,so can u tell us about yourself...we would like to know.
This must have taken a lot of effort.
You are sooooo amazing. Seriously.
Thanks for the compliment.
Eugene: I really liked the phasor technique when the slit (d) becomes appreciably larger than lambda. I hadn't seen that before. A few questions about that:
1) This reduces to the standard Young Experiment when d>Lambda, does it make any sense to use a sub-source separation smaller than lambda?
4) What does a negative phasor magnitude imply (Partial trough?)
5) Are these techniques more applicable for fluid-waves rather than light-waves of single color?
On a more important note, I presume these techniques are only an approximation to QED? As you know, QED produces ("amplitudes"--->probabilities at the back plane). I grapple with how simple phasor techniques which don't include quantum effects could match the mathematical Sum-over-history/Renormalization of QED.
Thanks again for your beautiful vids.
wow! this video is so helpful to my understanding of diffraction and interference. i have an excellent optics professor but lecture-style learning is inherently limited. sometimes you just have to sit back, get stoned and watch these mathematical concepts visually and graphically.
This is the best thing that I ever saw for this topic
Thanks. I am glad you liked my video.
@@EugeneKhutoryansky Actually I am glad that I found your channel
Sometime my love for physics goes down but whenever I watch a single video on any physics topic from ur channel then it gets restored.
Finally, I was struggling to understand Wave Optics a lot until this video. Amazing, really amazing animation. If it was possible, I would've liked you to also dive into the mathematical aspects of it such as why the first dark fringe would appear when the path difference is equal to the wavelength and how it differs from YDSE and such. Still, I was finally able to understand the phenomena and I can take it from here. Thank you so much.
I am glad my video was helpful. Thanks.
That cat which is in this video animation was confused like me before watching this video 😂😂😂😂but now that cat is become master in this concept 😂😂😂😂🤣🤣🤣🤣🤣and me also 😂😂thank u Eugene 💕🥰❤️👍u did a great job..
Thanks. Glad you liked my video.
4:05 what a wonderful explanation........physics is astonishing...
Thanks for the compliment about my explanation.
You have some of the best videos on UA-cam, I wish I could help.
Thanks. I am glad you like my videos. For people who want to help, I have a Patreon page at www.patreon.com/EugeneK
Such great elucidation, I cannot help but thank you!
I am glad you liked my video.
Loved the video loved the concept clarity given ❤️❤️❤️❤️
Thanks.
Fantastic video with music. Really helpful. Please do more videos.
By far the best illustrated and explained series of lectures I've seen on the subject. There are some very odd experiments I have seen not very well illustrated but quite well explained; in which clever attempts where made to trick electrons into taking the wrong path. All attempts failed. The only explanation was that somehow the electron 'knows' ahead of time whither or not a barrier will be there thus always following the shortest path in the now. This left me scratching my head for years! It would be a challenge but I'm wondering if Eugene could produce a video addressing this phenomenality?
Great ❤✌️ superb explaination that can not be bought from everywhere
Thanks for the compliment about my explanation.
Such an awesome explanation.....I am really pleased as well as glad after understanding all the concepts of diffraction and interference so clearly....thanks a lot ma'am..
Thanks for the compliment about my explanation.
Great great great video that actually uses Huygen's principle to explain diffraction
Thank you for this
Excelent Video, only one Question, What is the size of the slit that makes the difraction bigger?
thank you!! love the background music choice btw 👩🚀
I love people who make me love PHYSICS
The music and everything is beautiful
Best learning video I ever seen.
Thanks for the compliment.
Amazing vedio..Thanks a lot
Thanks. I am glad you liked my video.
@@EugeneKhutoryansky most welcome.... We need more and more vedios like this..
Eugene this is a great video in many ways as usual, but it would been a really nice if you had elaborate more about the huygens principle.
Every video of this channel is outstanding. Helps in better understanding the physics concepts
Thanks for the compliment about my videos.
thanks sir for your one of the greatest videos again
you have really great mind to made it
i will see on the topics of planck foton theory and meaning of h what is h and how is work in equations
Thanks so much, I understood lots of topics which ars really hard to understand. Please, keep going on this fantastic channel .
My best wishes.
+dheyaa kadhim, thanks for the compliment. And yes, lots more videos are on their way.
Thank you- this animation really helps me visualise things. It must've been hard work- really appreciate it and keep it up!
Thanks. I am glad my animation was helpful.
Thanks a lot, very helpful to visualize the effects!
Thanks.
The cat sitting in the corner was the best part
This is art.
Thanks. I have a video titled "Art made with wave interference" at ua-cam.com/video/_7XNu2lUKIA/v-deo.html
This is a very important video in visualizing superpositions, although a video directed specifically at waves and superposition would be cool.
Many Many thanks for this beautiful explanation
Thanks.
really a great explanation 10/10 and the graphics/animations are so ugly you can't help but love them. I specially enjoyed the phase space animation with a butt load of vectors, that was funny/cool
also the cat was great
Finally understood the importance of wavelets...
I forgot the details of single slit constructive interference and needed a refresher. Thanks
Thanks.
Great effort and nice way of explaining things :)
Thanks.
I have never seen this explanation of interference and diffraction in my life before this.
Superb vlog of concept of sine wave
Superb, btw this might be one of the challenging videos for you, a lot of imagination and visualization is required
this is the best video i can find. thks!!!
Thanks for the compliment about my video.
This is amazing. This is a great channel.
Thanks. Glad you like my videos.
No words can be this clear, thank you!
Thanks for the compliment. Glad you liked my video.
Eugene, YOU ARE THE BEST!
+Uyhn26, thanks. It is nice to be appreciated.
You're welcome! And thank YOU for making all these wonder videos!
The background music makes it more easier to grasp the concept.
Thank you sir once again. Please add "How carrier wave and other waves are combined in electronic circuit" in future videos. I am having problems with this topic. Thanks a lot.
+sirolsh2, that is on my list of topics for future videos. Thanks.
Woah , sine function had a 3rd axis ?
I don't understand , why the sin function have depth ?
What is sine function in first place ?
The vertical axis, coming out perpendicularly to the x-y grid, is the argument of sine, say θ. This helix that wraps around this axis looks like a sine function of x vs θ if you look at it from the side and ignore the y-axis (as he did in the video). Likewise, if you were to look at it from a side where the x-axis is into the screen, i.e. y vs θ, you would get a cosine function.
The reason this works is because of complex numbers: the green helix he plots is the function e^iθ, where i is the imaginary unit. Euler's formula states that e^iθ = cos(θ) + isin(θ). cos(θ) is the real part of e^iθ and sin(θ) is the imaginary part of e^iθ (because it is multiplied by i). So in effect the function e^iθ maps θ to two functions: sin(θ) and cos(θ), and you can denote each of them on a separate axis (so one axis for θ, one for sin(θ), and one for cos(θ)). If you look at only one part of e^iθ (the green function he plots) it's as if you only look at sin(θ) or cos(θ), depending on what side you look from.
@@456dave7 Thanks sir !
Magnificent
Absolute beauty here mad lads 👏👏
Thanks for the compliment.
Incredibly great. Many thanks for sharing this!
Glad you liked my video.
I think you SHOULD credit Dr R Feynman for the representation of the methodology you introducing here. This will let interested people have right references to read more about this!
Nice, excellent, marvelous, beautiful love u team.....
Thanks.
Really best explanation
Thanks for the compliment.
Amazing video! I really love how you're building off and combining old topics you already covered. One thing though, at around 12:38, doesn't that green line passing into the negatives on the x-axis suggest a negative amplitude, or is the only significant thing the actual length of the line? And if so, is there anything significant about the last point passing into the negatives? Thanks
+pendalink, it is only the length of the green line that signifies the amplitude of the sum of the waves. The fact that its X coordinate is negative doesn't matter, since the green line is going to rotate around the theta axis as theta increases, and I was just showing the cross section for when theta is zero. And thanks for the compliment about my video.
Sir, you've nailed it.
Thanks for the compliment.
Lovely explanation😊😊😊😊😊
Thanks. Glad you liked it.
These videos are incredible
Thanks. I am glad you like my videos.
the song played in the background is "The Blue Danube"
great videos. i realy like all your videos.
Thanks. I am glad you like my videos.