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.
@ForWork-sl3uz You can't copy my video, but if you want to help me add Hindi subtitles that will appear on my channel, please send me an email. I will email you the subtitle file in English (which includes the timings). You will then be able to edit the file to replace the English with the translation, and then email the file back to me.
I have one doubt ,the energy droped in feedback resister is coming from where ,since no current flows inside or outside the op amp which shows external voltage Vcc of op amp not contribute this The amplifier to increase or decrease voltage is only due the energy from external voltage Vcc connected inside the op amp ,during feedback case ,no current flows inside or outside the op amp ,then how the op amp have gain
These are excellent. I love how you animated the voltages as you did. These would make for excellent teaching resources for both instructors and students.
+Jose M A teacher isn't going to know this stuff in the sense of a junior high school or high school science teacher. This is sophomore level or junior level electrical engineering toward a bachelor degree. I taught this to sophomores at Rensselaer aPolytechnic in the 1980's.
+Jose At the level at which he is posting, you can bet that if he is in the US, he took the GRE and is in some kind of meaningless graduate degree program that eventually leads to a salary much less than people who took the Vo-tech path and never went to college.
This has blown my mind. I've been learning some electronics on my own, and I'm right now really interested on the op amps and their different configurations. this animations made it all look so simple, so elegant, that I understood everything. Even though I could understand all the formulas, the logic behind how it worked was still hard to catch. And the approach you did to explain the formulas for the integrator and derivative configs was incredibly simple, and that made me very happy. Again, thanks for all you videos, they teach me so much about everything!
You can help translate this video by adding subtitles in other languages. To add a translation, click on the following link: ruclips.net/user/timedtext_video?v=_o4ScgRZtNI&ref=share 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.
Again, I have been schooled in something I thought I understood. Thank you for showing me the truth and illuminating the beautiful simplicity of things
I've seen the typical "water analogies" of folks' trying to develop the intuition of how op amps work, and they're good, but this takes the cake. Great job on the graphics and animation. You've made it all seem so obvious. Thank you.
These kind of videos are awesome and should be used to teach the basic concepts of physics/engineering whenever is possible. It so much easier to understand these concepts when they are presented graphically.
Oh my god. I remember learning about op amps in highschool and understanding the math behind the relationships, but struggling to memorize the equations due to a lack of intuition. Then just today I was tutoring a highschool student where I used height as an analogy to explain electric potential. It's quite the coincidence that I happen to watch this video today that uses the same analogy to explain op amps in a completely intuitive way!
You are so under rated this is a great channel, i love the way you explain using simple animations, you definitely deserve more views, thats why I always like and comment
I was introduced to this component in my basic electronics class and I got very confused, some days later I found that this golden channel had a video on that topic... totally made everything understandable. I appreciate that the creator of these videos really thinks from the ground up coming up with creative analogies to make everything make sense as a unity.
Writing a comment to help with the algorithm. I was having a bad day and watching this tremendously improved both my mood(probably the music) and understanding of op amps. Thank you. Now, going to listen to some classical music and digest all I've absorbed.
How can I read a whole chapter in a professional electronics textbook, and still have no clear idea about the op-amp's functionality, yet just 2 minutes into this video and I'm like "WHY DIDNT THEY JUST SAY THAT??" - bless u EK
I really appreciate the work that's gone into the animation in this video. It really helps to visualize what's going on, which is fantastic for people who are more visual learners. I really wish this had been around when I was in engineering school. Nice work!
You deserve respect for your hardwork in making this wonderful and intuitive animations. It really describes wonderfully the things which we cannot see.
I thank you very much. The videos are not just lessons it's enlightenment. I request you to post one video of your entire team, and how you make these videos
Thanks so much for this - it's the best description I've found, as an electronics beginner, to how negative feedback works. I've got the kind of mind that's too old and lazy to learn maths, but worries when I can't picture how a thing works. Also, thanks for going on into integrators and differentiators - I'm trying to learn a bit of synth DIY, and I can see uses for this in terms of rising edge detectors... I'll be rewatching this for sure.
As everyone else says these videos are by far the best at explaining concepts like this. I can't understand why courses and books can't teach like this, basically trying to make everything as graphical and simple has possible. I still don't totally get it but this video really helps. I would love to see a video of where an entire pre amp circuit for example is given and all the voltages of every part are shown and explained.
Calling the inputs "plus" and "minus" is making me mad but I understand that clear explanation is more important than proper naming. And you did a good job explaining it. Thank you.
This video, just explained me what I tried to understand for one whole semester in my college. You are the best teacher. Hats off!!! Please keep making more videos
This is a masterpiece. You deserve a medal for these videos. I just love them. So perfect in every single way (even the music is so nice and lovely). Thank you so much. You are amazing.
Physics Videos by Eugene Khutoryansky Passing information to people is an art. You have it in an artistic way. The reason why I am that impressed is because I never had a professor who conveyed an information in a clear way. This denotes your intelligence. Understanding the information isn't enough. Having the structure in your brain to present the information in the right chronological order is what I call perfection and geniusity. I love you for this. I am fascinated by you. I always try to convey information in the clearest way possible. I can make a person pass an exam in just 10 minutes. So I feel you are my idol. I only wish people like you structure the educational system.
This is a superb video. I have been reading up on this and struggling, but your video just explained it perfectly so I finally get it. Many thanks from Sheffield - Uk.
At 5:00, we can see how the voltage dividing formed by the two resistors determines the voltage gain. This is a great tutorial that really helps us have fun with op amps by truly understanding their operation. When troubleshooting op amp circuits, anytime you find a voltage difference between the inverting and non-inverting inputs you should suspect that this is a defective op-amp I.C. in a healthy circuit, the +&- inputs are almost exactly equal.
ultimate animation I ever saw to make beginners understand about electronics and components. Great Job. I like seeing more for other components like Mosfet etc.,
Thanks for the compliment about my animations. I animate FETs in my video "Logic Gates from Transistors" at the following link ruclips.net/video/SW2Bwc17_wA/видео.html
Using the resistors coupled on a lever of the negative input of the OpAmp is freakn genius, makes visualizing it so much more intuitive. So if the R value increases the length of the resistor on the vid will increase thus making the lever pivot in a way which relates the output voltage to the input voltage in a certain way. Damn thanks alot.
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.
instablaster
Can i make it in hindi version
@ForWork-sl3uz You can't copy my video, but if you want to help me add Hindi subtitles that will appear on my channel, please send me an email. I will email you the subtitle file in English (which includes the timings). You will then be able to edit the file to replace the English with the translation, and then email the file back to me.
I have one doubt ,the energy droped in feedback resister is coming from where ,since no current flows inside or outside the op amp which shows external voltage Vcc of op amp not contribute this
The amplifier to increase or decrease voltage is only due the energy from external voltage Vcc connected inside the op amp ,during feedback case ,no current flows inside or outside the op amp ,then how the op amp have gain
I request you to clarify my doubt
2:38 Comparator
6:35 inverting Amplifier
7:30 non-inverting Amplifier
8:00 Voltage Adder
9:30 Integrator
10:07 Derivator
10:42 Voltage Buffer
Thanks
Thanks a lot!
0:00 Eine kleine nachmuzik
5:46 Für Elise
8:10 Eine kleine nachmuzik
@@mandarbamane4268 goated
this is beauty of animation
Younger engineers are going to be so spoiled with such great learning resources. Thanks for sharing, wish you had been around 10 years ago :P
XD
It never fails... these videos take something I *think* I understand, and turns it into something completely intuitive. Beautiful!
+Rico Reyes, thanks.
this is by far the simplest to understand electrical explanation I've ever seen. Thank you very much
These are excellent. I love how you animated the voltages as you did. These would make for excellent teaching resources for both instructors and students.
Thanks for the compliment about my videos.
If you like this video, you can help more people find it in their RUclips search engine by clicking the like button, and writing a comment.
+Physics Videos by Eugene Khutoryansky Are you a teacher or something? How do you know all this stuff?
+Jose M Awesome videos by the way
+Jose M A teacher isn't going to know this stuff in the sense of a junior high school or high school science teacher. This is sophomore level or junior level electrical engineering toward a bachelor degree. I taught this to sophomores at Rensselaer aPolytechnic in the 1980's.
John Doe yeah but I want to know who he is . He makes amazing videos. Is he a scientist or something?
+Jose At the level at which he is posting, you can bet that if he is in the US, he took the GRE and is in some kind of meaningless graduate degree program that eventually leads to a salary much less than people who took the Vo-tech path and never went to college.
I highly recommend this video to electrical and physics student. This is the best presentation they can get.
+R Vass, thanks.
This has blown my mind. I've been learning some electronics on my own, and I'm right now really interested on the op amps and their different configurations. this animations made it all look so simple, so elegant, that I understood everything. Even though I could understand all the formulas, the logic behind how it worked was still hard to catch. And the approach you did to explain the formulas for the integrator and derivative configs was incredibly simple, and that made me very happy.
Again, thanks for all you videos, they teach me so much about everything!
+Alejandro Aristizabal, Thanks. I am glad that you found my video helpful.
You can help translate this video by adding subtitles in other languages. To add a translation, click on the following link:
ruclips.net/user/timedtext_video?v=_o4ScgRZtNI&ref=share
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.
Done! / Fait !
Using the visual metaphor of levers has completely blown this topic wide open for me. Amazing, thank you so much!
Thanks.
Again, I have been schooled in something I thought I understood. Thank you for showing me the truth and illuminating the beautiful simplicity of things
Thanks.
i was struggling to grasp how feedback works in opamp for past 1 week , now i understood it in one minute. thank you for making these videos.
Glad my video was helpful. Thanks.
I've seen the typical "water analogies" of folks' trying to develop the intuition of how op amps work, and they're good, but this takes the cake. Great job on the graphics and animation. You've made it all seem so obvious. Thank you.
+Caleb T, thanks for the compliment.
These kind of videos are awesome and should be used to teach the basic concepts of physics/engineering whenever is possible. It so much easier to understand these concepts when they are presented graphically.
This is exactly how I visualize how op amps work. This is the first time I've seen anyone portray them in this way.
Oh my god. I remember learning about op amps in highschool and understanding the math behind the relationships, but struggling to memorize the equations due to a lack of intuition. Then just today I was tutoring a highschool student where I used height as an analogy to explain electric potential. It's quite the coincidence that I happen to watch this video today that uses the same analogy to explain op amps in a completely intuitive way!
Every time I watch this I pick up some more details that I missed the time before. Awesome how you put so much info into these animations!
Thanks.
You are so under rated this is a great channel, i love the way you explain using simple animations, you definitely deserve more views, thats why I always like and comment
+Rustamdeep Singh Khosa, thanks. I appreciate your support.
I was introduced to this component in my basic electronics class and I got very confused, some days later I found that this golden channel had a video on that topic... totally made everything understandable.
I appreciate that the creator of these videos really thinks from the ground up coming up with creative analogies to make everything make sense as a unity.
Thanks. I am glad my videos are helpful.
A great way to visualize op amp circuits. Nicely complements other training videos I've watched.
Writing a comment to help with the algorithm.
I was having a bad day and watching this tremendously improved both my mood(probably the music) and understanding of op amps.
Thank you. Now, going to listen to some classical music and digest all I've absorbed.
Thanks. I am glad my video was helpful.
How can I read a whole chapter in a professional electronics textbook, and still have no clear idea about the op-amp's functionality, yet just 2 minutes into this video and I'm like "WHY DIDNT THEY JUST SAY THAT??" - bless u EK
Glad my video was helpful. Thanks.
I really appreciate the work that's gone into the animation in this video. It really helps to visualize what's going on, which is fantastic for people who are more visual learners. I really wish this had been around when I was in engineering school. Nice work!
Thanks. I am glad you liked my video.
12 minutes of video time saves me hours of lecture time. The video is SO WELL DONE!!!
Thanks for sharing these amazing animations ... helping everyone understand oft misunderstood subjects very intuitively. Keep up the good work
Wow, these animations are great for understanding how these things work!
Best video I've seen on op amps. The physical representation and visualization has made all the difference in my understanding. Thank you!
Thanks for the compliment about my video.
You deserve respect for your hardwork in making this wonderful and intuitive animations. It really describes wonderfully the things which we cannot see.
Thanks for the compliment.
Great video. I can't imagine how long it took you to put this together. Thanks for posting.
I thank you very much. The videos are not just lessons it's enlightenment.
I request you to post one video of your entire team, and how you make these videos
Thanks so much for this - it's the best description I've found, as an electronics beginner, to how negative feedback works. I've got the kind of mind that's too old and lazy to learn maths, but worries when I can't picture how a thing works. Also, thanks for going on into integrators and differentiators - I'm trying to learn a bit of synth DIY, and I can see uses for this in terms of rising edge detectors... I'll be rewatching this for sure.
The animations is made very well. You deserve lot of Thanks from all of us for this great job.
Thanks for the compliment about my animations.
The best channel I have ever seen. Getting a lot of practical knowledge. I shall be thankful to your channel for giving me this knowledge.
Thanks for the compliment. I am glad you like my videos that much.
The best presentation I have seen about OPAMPs.
+Ulaş Yılman, thanks for the compliment.
As everyone else says these videos are by far the best at explaining concepts like this. I can't understand why courses and books can't teach like this, basically trying to make everything as graphical and simple has possible. I still don't totally get it but this video really helps. I would love to see a video of where an entire pre amp circuit for example is given and all the voltages of every part are shown and explained.
Thanks for the compliments about my videos.
Browse through many many videos, finally got ideas of op amp theory by this representation. Thank you so much
I am glad my video was helpful. Thanks.
Calling the inputs "plus" and "minus" is making me mad but I understand that clear explanation is more important than proper naming. And you did a good job explaining it. Thank you.
Super, extraordinary,
Thanks Mr for efforts and energy. I can't thank you otherwise enough.
Thanks. I am glad you liked my video.
This is the best explanation of op-amp I've ever seen. Thank you very much!
Thanks for the compliment.
great video, the illustrations make the concepts much clearer
Your videos are most easily explained ones i always come here for amazing lectuers
This is amazing. These visualizations really make it simple to understand.
Thanks.
Beautiful simulation of basic op-amp functioning. Thank you !
Thanks for the compliment.
This is the best OP amp explanation I have seen so far. Everyone takes the current through the input for granted but this was perfect.
Thanks for the compliment about my video.
this is amazing ,the way the animation is expressing how things are happening ,this makes a better understanding
Thanks.
The animations are so helpful in understanding the opamp basics
Thanks. I am glad to hear that my animations are helpful.
yeah it's like watching Cosmos or something, it enters the realm of education plus entertainment, or edutainment?? :-D
Thank you very much! Op amps were confusing me in my lessons. This clears up a lot.
Excellent analogy, you are awwsome Eugene Khutoryansky.....great work...
Thanks for the compliment.
This video, just explained me what I tried to understand for one whole semester in my college. You are the best teacher. Hats off!!! Please keep making more videos
Thanks for the compliment. More videos are on their way.
The ability to visualize what's going on is invaluable.
It's like the negative feedback resistor controls the angle of a ramp representing the gain!!
If we have teachers like you in class then we don't need you tube to study.. you are simply awesome
This video is simply breathtaking
Thanks for the compliment.
Always a pleasure to see a new video of yours, Eugene!
+TheBlundert4ker, thanks.
I never understood op amps until I watched these videos. Thanks :)
This is a masterpiece. You deserve a medal for these videos. I just love them. So perfect in every single way (even the music is so nice and lovely). Thank you so much. You are amazing.
Thanks for that really great compliment. I am glad you like my videos that much.
Physics Videos by Eugene Khutoryansky Passing information to people is an art. You have it in an artistic way. The reason why I am that impressed is because I never had a professor who conveyed an information in a clear way. This denotes your intelligence. Understanding the information isn't enough. Having the structure in your brain to present the information in the right chronological order is what I call perfection and geniusity. I love you for this. I am fascinated by you. I always try to convey information in the clearest way possible. I can make a person pass an exam in just 10 minutes. So I feel you are my idol. I only wish people like you structure the educational system.
The visual representation here is an excellent way of teaching this subject. Thank you for such a clear explanation
Thanks for the compliment.
What a beautiful presentation. Thanks to you, learning becomes much easier. Thank you for your great work!
Thanks for the compliment.
This is a superb video. I have been reading up on this and struggling, but your video just explained it perfectly so I finally get it. Many thanks from Sheffield - Uk.
Glad my video was helpful. Thanks.
Donde estuvo este canal toda mi secundaria en electrónica? Es espectacular
Yeni başlayanlar için çok ideal bir anlatım. Emeğinize sağlık. Paylaşımınız ve çabalarınız için teşekkürler.
Best explanation I have seen of how op amps work. Thank you
Thanks for the compliment about my explanation.
awesome !!..simplified with clarification the animation was very VERY helpful...many thanks !!
Glad my animation was helpful. Thanks.
My favourite video series!!
As a Physics undergrad, I sat through many boring hours of lectures on this very topic. This video condenses it into an understandable 12 minutes.
Thanks.
wow! this video is the greatest explanation I've ever seen. THANK YOU for doing this, it's so incredibly helpful
Thanks for the compliment about my video.
I actually understood the basics of opamps using this video thanks a lot keep doing more videos on electronics...all the best..
This was some amazing explanation. Fabulous as always.Love your videos.
simply amazing , i have learnt by visualizing what actual happens, never learnt through book, amazing video thanks
WOW! Stunning use of animation 👍
Thanks for the compliment.
At 5:00, we can see how the voltage dividing formed by the two resistors determines the voltage gain. This is a great tutorial that really helps us have fun with op amps by truly understanding their operation. When troubleshooting op amp circuits, anytime you find a voltage difference between the inverting and non-inverting inputs you should suspect that this is a defective op-amp I.C. in a healthy circuit, the +&- inputs are almost exactly equal.
This is awesome, thank you so much!
This deserves many more views..
Thanks for the compliments. I am glad you liked my video.
Fantastic video! Really helps me make sense of Op Amps
Glad to hear my video was helpful. Thanks.
These are the best videos on RUclips for physics. Thank you!
Thanks for the compliment about my videos.
I loved your work, absolutely delightful. Please keep up the good work.
Thanks for the compliment.
This is my favorite channel. Thank you for your beautiful visualizations of complex topics!
Thanks !!!
Brilliant explanation... I wish I'd watched this when I was studying op-amps in class.
Thanks for the compliment about my explanation.
Phenomenal work. Really well explained in a new and innovative manner. Kudos friend
Thank you very much ! Got my all opamp concepts clear from this simple graphical video.
Glad to hear my video was helpful. Thanks.
Your content is crazy man. LOVED IT!!! and I will share it with colleges.
Thanks.
Very nice, appreciated. Especially liked the seesaw with multiple resistors - easy to memorize.
+Krzysztof Stankiewicz, thanks. Glad you liked it.
Excellent videothat brings out the essence of OpAmp.
Thanks.
Why your channel is so under rated…….This channel must have minimum 10M subscribers……
Thanks for the compliment.
excellent change in the history of teaching u made,,,very simple& effective,,,thx a million,,salute u
Thanks.
simply the best! thank you for this. this channel keeps me afloat threw my engineering courses
Thanks for the compliment. I am glad my videos are helpful.
Exactly the circuits used to study membrane potential and current in patch clamping. Thanks Eugene
this is always THE BEST explanation of anything in physics in any youtube arena !
Thanks for the compliment.
I've got you finally a great revelation this channel is great job
Nice animation to explain the basic working!
How brilliant this video is ! How brilliant !!! Big Thank you ❤
Thanks for the compliments about my video.
ultimate animation I ever saw to make beginners understand about electronics and components. Great Job. I like seeing more for other components like Mosfet etc.,
Thanks for the compliment about my animations. I animate FETs in my video "Logic Gates from Transistors" at the following link
ruclips.net/video/SW2Bwc17_wA/видео.html
This is fantastic, the best and the easiest to understand for beginners. Thank you!!
Thanks for the compliment about my video.
Wonderful explanation!!!
Congratulations for the well done job!
Thanks for the compliment. I am glad you liked my explanation.
most accurate and best explanation i found everywhere , i appreciate that :)
Glad you liked it. Thanks.
You are a beautiful human. This is exactly the sort of thing that there needs to be more of.
+Chris Greenley, thanks.
Excellent video. Greetings from Egypt!
+Fusion, thanks! Glad to hear my videos are being watched in Egypy, and I am glad that you like my video. Thanks.
You are my idol. I'm learning the electronic by myself. It's hard to understand how the op-amp works. Your video help me a lot. Thank you so much.
Thanks for the compliment and I am glad that my video was helpful.
Clearest explanation for basic op amp operation. Thanks!
Thanks for the compliment about my explanation.
Great video as always! I appreciate all the work you do:)
+Ahmed Elsherfi, thanks.
Using the resistors coupled on a lever of the negative input of the OpAmp is freakn genius, makes visualizing it so much more intuitive. So if the R value increases the length of the resistor on the vid will increase thus making the lever pivot in a way which relates the output voltage to the input voltage in a certain way. Damn thanks alot.