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In case, you have not already seen them, I also uploaded several other videos recently. As always, for each video that you like, you can help more people find it in their RU-vid search engine by clicking the like button, and writing a comment. Lots more videos are coming very soon. Thanks.
Physics Videos by Eugene Khutoryansky I really like the way you explain about the phenomenon of any element's in electronics And the animation is best n best
As a visual learner this video has helped me so much. In college I could answer all the questions but didn't really know what was going on. This has really increased my understanding and I am so grateful for this video being made
Outstanding video and explanation! - Great to see visualize how the Boolean Logic works in the physical world as circuit gates. Thank you for another great video!
really love the animation. Its awesome how you implemented high low concept visually and made it a thousand times more easier and versatile to feed to our brain.
WOW, just WOW. Years of struggling to understand just ended here! For those of us that learn visually, this channel is a godsend! Please keep teaching!! (my Arduino brought me here)
I needed an explanation for my class project and this was so amazing. I'm really glad. keep making explanations like this on BJTS and people will love it.
No one has ever explained it like this, its very clear as always, thank you. I wish you could make something about how different types of transistors work, for example BJT also ... TTLs and MOSFET...
You can help translate this video by adding subtitles in other languages. To add a translation, click on the following link: ru-vid.com_video?v=SW2Bwc17_wA&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.
before seeing this video , electronics was just formula based paper to me.........now it's physics...which i can see in my daily life......thank you eugene......
Why yes, the data input will come together with the clock input under the power invested in the AND gate. Until an outage do them part... Sorry, I had to. I am currently studying logic gate, right now I am learning about flip-flop memory
Aldibar, perhaps this RU-vidr is unaware that it is a wedding music played in his video. He might be a foreigner who is unfamiliar with western customs.
... Are you? Because you said 'he' when it seems pretty clear that it's a woman. Or are you implicitly assuming that someone else did most of the work?
Applaud the voltage/current modeling through elevation and direction. Have never seen this technique, and seems genius to me. Knowing is important. Teaching is beautiful.
Great! Great! Great! I'm addicted. More of Computer Science please! Would be great a follow-up with more complex and advanced concepts, for example, how boolean are used further up the road to crunch the 1s and 0s into octets which are interpreted by the hardware and how this looks in the ALU of a CPU.
Alexandru Gheorghe Yes, I eventually plan to do videos showing how to build an entire working computer from logic gates. But first, there are many more topics on physics that I would like to do videos on. Thanks.
After years of just memorizing answers, this video really helped me understand what im actually doing and what im actually going to be doing in the future and i could not be more excited. Thank you so much for this and i just wanna wish you the best of everything and hope you're doing well now in 2022
SabakuSouSou87 Thanks for the compliment about the video. I am glad you liked it, and I am glad to hear that you are happy when you see I have a new video. Yes, I eventually plan to do videos showing how to build an entire working computer from logic gates. But first, there are many more topics on physics that I would like to do videos on. Thanks.
Ma'am I watch every single video of your channel. You are really a great teacher n best thought visualizer.... I checked out older videos and got my confusions cleared.. Never get distracted by people's comment about music you add....that also makes focus in the video i loved that....
instead of 1s and 0s or on and off, I see High and Low or Hi and Lo more often. It refers to High voltage(on/1) or Low Voltage(off/0) also Low/off doesn't necessarily mean no voltage it just means low and this can be a good idea if you want the circuit or chip to have a reaction for a disconnected situation where it isn't getting any voltage and can go into a safety mode to deal with it. If you've been around in electronics it's something you quickly pick up but often gets glossed over in lessons.
very nice presentation of a very abstract concept to a non technical person.no doubt U are a gifted teacher.I am following many of your presentations and I have never seen such a vivid picture.I wish you teach more difficult mathematical concepts like complex numbers to a non maths persons like me. Shan V
this is ONE OF THE BEST VIDEOS ON RU-vid!!!! THANK YOU SO MUCH!!! very well explained and visualising is very good and makes easy to understand!!! THANKS for your labor
@@EugeneKhutoryansky oh, you're welcome!! My compliments were not very much.Your channel worth 10×this compliments.This is really a WONDERFUL video and all compliments are not enough for your channel
You really shoud do a video about yourself, line a FAQ video. I AM studing physics at college so i would like to know about the men behind the video. Awesome video btw.
This is one of the best video that I've seen since I started studying electronics in 2017, finally I catch the logic gates thanks' to the creator of this video is the best teacher for me
great stuff as usual...the animation is wonderful for assimilation and comprehension... one bit of constructive criticism.. and I LOVE classical music but can we dispense with the wedding march? too distracting..thank you and keep the great vids coming.. and Thank You
It's the produce of copyright madness. According to current laws, each day more aggressively applied, you can't use anything that has been produced in around 100-150 years before now, because it might be copyrighted and some mafia organization pretending to represent the artist's intellect, may get your video retired from the Internet otherwise, what is very annoying. Using classical music avoids that problem altogether.
I just discovered your videos - they are absolutely brilliant. They will be very beneficial to visual learners, like me. The animation of subjects is awesome. Your videos will certainly help me, and my friends. Thank you for providing such stimulating and informative study format.
Excellent animation. At the same time as the animation appear, I would suggest to show the truth table with all 4 possible input present and output set to ?. Then, as the animation show the transistors/switches moving, replace the ? by the value displayed by the animation. When showing the conversion of logic function by inverting the output, a truth table with two columns for output would make it more clear. One output column showing the result before inversion, the other, the actual result after the invertor. Finally, when showing the inversion of both input, the truth table may have 2 layers, as two table on top of each other in 3D. If we dream to make this introduction to logic gate memorable forever, some humour could be added. For example, showing old looking switches on ceramic insulator with exposed paper isolated wires. Then, flashback to the modern era of transistors. Another short historic flashback could show these fences with a few locks in chain, representing an OR gate: any resident with one key can access the shared land.
That is a valid point. I don't expect the author to spend time and convince his financial supporter to produce an improved tutorial. The characteristic that distinguish this author is an original way to explain electronic concepts using 3D. I hope that somebody else will get inspired from these videos to create yet another way to display these concepts... I have no idea what it could be. I hope that this new author will also look at the best tutorial that existed in the antique quasi prehistoric time when I learned logic gate. At that time, a "truth table" was always shown, presenting all possible input and resulting output. This is the top down approach : show the result, then work you way back to the abstract of engineering. The fact that you commented my comment shows me that my comments get really published by youtube and that some people read them. This is good news to me, giving some value to my attempt to write constructive comments.
Well done !!! Especially adding the music to give us extra challenge to test if we can rewind and locate a specific gate section by ear....mixing art and technology !!!
Wow, I have just begun to study this in school. Perfect timing, this isn't the first time this has happened either. I also vote for more computer science videos.
Piping and Working, I am glad to hear that the timing worked out. Yes, I will have more videos on this topic, as well as videos on many other topics in physics. Thanks.
what an excellent presentation ! i read many times books of such subject but with out understanding its working principles. i am comforted now with your animation ! thank you dear ! please keep your contribution more and more , i follow to learn more on transistors
I really think you are a genious, i dont even know how studying would be without your videos. I cannot explain myself If either it was so easy for you to undersand this stuff so much that you have replicated it so clearly in a video or this is simply the fruit of years of reasoning ...
Thank you for the video. Background music seems unnecessary. There is so much communication in the video happens simultaneously: animations, voice over, music and rapid development of the material. It is pretty difficult task for the brain to process and analyze all of that communication at the same time. I believe the topic being covered is quite complex in its nature for comprehension and I believe that's the reason for the video to be made. Personally, I need to rewind-pause-play time to time and follow through the schematics to grasp a certain statement. And listening to the same piece of music over and over again is rather annoying. That's not an issue for me to mute the video. Although I believe placement of background music must be somehow justified (like it's been proven that majority of physics students learn "Logic Gates" material faster and more efficiently by listening to that particular piece of classical music). If someone learns better with music playing in the background, they have bunch of options available -- open separate browser tab with music-stream, launch iTunes player or listen to home-radio -- and listen whatever music works best for them.
I love the way you make science videos, it's easier to understand hard topics with interactive animations... Congratulations! Keep on spreading great knowledge to the world :)
***** Thanks, I am glad you liked this video and this topic. Yes, I eventually plan on doing more in depth videos on both transistors and on logic gates, but first there are many other topics in physics that I plan on making videos on first. Thanks.
these videos are amazing! so intuitive ,much better than blackboard or paper drawing and math equations.i m going to show them to my classmates.thank you very much!
In the case of an amplifier, would the gate terminal be used as the input of an audio signal, changing voltages in tiny (or high) increments that would be amplified on the drain?
So all logic gates are based on the not gate !!! this is way too much insight, why I was not told so many years ago ???? Truly astonishing One question I would like to ask regarding the videos, why do you insist on putting music ? Another thing I would like you to share with us videos to teach how you make these animation , perhaps you inspire others to convey their understanding visually Many thank I am a big fan of the channel !
Please make more videos on the digital circuits used in computer.Like how the different programming are given to the circuit ,so it works by clicking a particular buttons.Please do it.
The background music is kind of out of place, but other than that, this is a great video! Now, just a question that I have after watching this: what would be required to change the output of that logic gate at the end of the video back to logic low?
+Felipe Gabe, you would need to interrupt the logic high signal from the output to the input. Once both input signals are at logic low, the output will return to logic low.
There are simpler ways to make the NAND and AND gates. Just put the two transistors in series instead of parallel and that takes care of needing 3 NOT gates for the NAND gate (because the two transistors by themselves will be the NAND gate). Then you only need one NOT gate to turn the NAND gate into an AND gate. Your XOR gate could have been done in as few as 7 transistors.
Yes you're right! For the XOR gate they also showed that it consists of an OR + a NAND + an AND gate, instead a NOR + an AND + another NOR would also work and as you said would only use 7 transistors (or am I mistaken?)...
Go to [www.falstad.com/circuit/circuitjs.html] and copy the following block of text: $ 0 0.000005 10.20027730826997 50 5 50 f 816 368 880 368 4 1.5 0.02 w 880 320 880 352 0 f 960 256 960 320 5 1.5 0.02 f 960 384 960 320 4 1.5 0.02 w 880 384 960 384 0 w 816 368 816 416 0 w 816 416 1008 416 0 w 1008 416 1008 320 0 w 960 256 960 224 0 w 960 224 880 224 0 L 880 224 688 224 0 0 false 5 0 L 816 368 688 368 0 0 false 5 0 w 960 384 1088 384 0 w 960 224 1072 224 0 w 880 320 912 320 0 w 912 320 944 320 0 w 912 320 912 448 0 M 912 448 912 496 0 2.5 w 976 320 1008 320 0 x 823 505 878 508 0 20 output f 1072 224 1072 320 4 1.5 0.02 r 880 224 880 320 0 10000 r 1168 320 1088 320 0 10000 g 1056 320 1056 336 0 R 1168 320 1200 320 0 0 40 5 0 0 0.5 w 1088 320 1088 384 0 Then go to "file->Import from Text" and paste the above block into the text field. Click Okay. I have 3 N-Channel MOSFETs and 1 P-Channel MOSFET. The output is between a NOT gate and a transmission gate.
only 133000 views ? sorry eugene..I watched your video on quantum mechanics long time ago . then i was a 13 years old .. and yeah , you made a thirteen years old boy understand quantum mechanics .. thats called teaching
I Just love your videos, they are quite intuitive. PLEASE make video on deriving longitudinal waves(sound waves). How they mathematically come out to be sine waves. Thank You
Physics Videos by Eugene Khutoryansky, Yes, And, Not, Nor & Nand gates. I must have tunnel vision. Did not notice any music during playing, then read comment section. Very nice presentation.
I love your videos. They are excellent, they help me a lot. I really loved the way you expressed the voltage effects on the gate as a sort of leverage. That really helped me visualize. I know that's "not the way it is" , but then again... in another way... I think maybe it is ! Anyway, this really assists me in learning and remembering "the facts" from text books [which I am not great at doing all of the time]. GigaThanks ! PS. don't worry about replying ; that takes up precious video making time lol (: