I am an EE graduate (class of 1989) and it is amazing how much one forget if you are not practicing or in the business of working on circuits every day. This video is one of the best tutorial and refresher I have ever seen. I sat through the whole thing and wide awake at that...I wish I had this guy for an instructor back then; but on the other hand I think he was just a baby then or wasn't even born yet. Probably I will get him as an instructor in the "Next Life". Great job. Thank you.
You are absolutely right. I was about negative 5 years old at the time. :) Seriously, thank you for your kind words. They mean a lot to me..and even more so, I am glad this video was useful to you.
Cool. That was the year I was born. I guess it's not too late to relearn and brush up on electronics and level up my career. I'm getting sick of being a clerk at USPS. I wouldn't mind staying at USPS but as an ET or IT.
This video is 6 years old and it is single-handedly preparing me better for a test in less than 2 hours than an entire month of school ever did. Thank you!
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After nearly 50 years of electrical engineering theory and analysis, these series of lectures are among the very best. Takes me back to my rookie year at 16 years old with a British professor. Superb teacher!
I taught this for many years as part of a Uni EE101 Unit. If you are a student having problems with these concepts, I HIGHLY recommend you watch and learn.
My teacher tried teaching us these concepts for half of the semester. I won't say he was completely unsuccessful, but you manage to wrap it all up in an hour and thirty. If I were my teacher, I would play parts of this video per week and then work out practice problems. You explain it simply, yet effectively, while a lot of Circuits teachers don't realize that going straight to complicated example problems can become overwhelming for the students...
I have a masters in electrical engineering, and this brings me back to my sophomore and junior years in many ways. Good times. You are an excellent teacher.
I have been an electrician for 50 years. I enjoy every bit of your lecture. Thank you for your free effort. I very much appreciate you sharing this intricate subject that is so deep. Only the humble can absorb and digest knowledge. Not everyone knows everything but we can learn from each other.
I remembered the first time I watched your video. That was a year ago when I first started school as an electrical engineer major. I remembered how thankful I was for your video as your explanations are really spot on and diagrams used are all nicely color coded and easily understandable. I remembered having trouble understanding the node voltage analysis method and your video cleared all my confusions about the said topic. Since your video was so well-made, I stayed to finish watching the whole hour long of the video. I would totally recommend this video to anyway interested in the related topics and am writing this comment here as part of my assignment but also as a thank you note. Job well done.
+Theh WS Hey, thanks a lot. I'm not always sure how well I explain things, but I'm glad that the video worked for you. Comments like these keep my motivated!
Fell asleep on the couch looking at guides on how to use a multi-meter, woke up after hearing "R2" repeatedly thinking it was a discussion about Star Wars :D
This was absolutely amazing. You did a better job explaining these concepts in 1.5 hours than my instructor has over the past half a semester. I am excited to watch the op-amp video before my instructor explains it so that hopefully I can come into the class well prepared
To lecture this material to 138,000 students it would have taken likely in excess of 5,000 sessions or 7,500 hours of your time. I think that alone shows where the future of education is going... thanks for piecing this together and executing it so well!
even though have a B Eng in Electrical/Electronics Eng'g, watching this video till the end was irresistible. its exceptionally explicit, it could win best instructional video award. the colour codings to distinguish circuit parts and equations regarding specific parts of the circuit was a super awesome idea. wish I could give a million likes at once. I would appreciate if you could give me clue on how to make such videos, whether it's a particular software or whatever. thanks.
Olajide Oyekunle Wow thanks! That's the kind of feedback that I like to hear! I make all of my videos in PowerPoint. All of the graphics are just combinations of basic lines and shapes. PowerPoint also provides a way to record and voice over your presentations. PowerPoint has its quirks, but overall, if you have version 2010 or later (2007 probably works too), the only thing you need to make videos like mine is a lot of time!
thanks a bunch for your response. And now the only thing remaining for me to make super awesome videos like yours is alotta PowerPoint tutorials. By the way, do you have any tutorials on such?
Olajide Oyekunle I don't think I've ever watched any tutorials on PowerPoint (not to pat myself on the back or anything). Usually, if I'm curious if something is possible or want to figure out how, I just Google it.
This Lecture Video is really benefited me. The concepts in video presented in very lucid way. Solid State Workshop you did splendid work for technical community. I hope you will come again with new standard course video.
Best explanation ever!! My native language is not english so sometimes other lecturer's videos are too fast and complicated for me. But you speak clearly and simplifying. Thank you
This is really good. I have a BS in physics, plus some graduate school, and I took electronics as an undergrad, and when I was done with all that, I could not sit down and design a doorbell circuit. I have looked at a number of online teaching sources, including MIT, and I found that they led me down rabbit holes and taught me useless, time-wasting things like reduced row echelon form and Cramer's Rule. You're the first teacher I've seen who goes straight to nodal analysis without bothering with KVL. You tell students which things matter in the real world and which ones don't. Thanks for cutting out the worthless BS. I'm writing my own circuit analysis method in order to get rid of the crap and confusion from other methods, and this video will be very helpful in editing it.
I, too, was taught that way in my college courses. Mathematics was one of them. Later on, I taught myself mathematics the right way. First, I learned about theorems. After that, I rewrote them in my own words. Finally, I devised my own theorems and applied them to the real world. I was working some geometric problems. One of them entailed finding the proportion ot a right triangle. I combined concepts from algebra and geometry to arrive at a generalization of calculating sides of a right triangle. And that was an amazing accomplishment. This is one thing schools do not teach: creativity.
This was a very well explained video. I watched this simply for the pleasure of education. Even though I’ve graduated over 27 years ago I still could follow and understand the math. I absolutely love electronics!
I was going to school for electrical engineering and my ex wife made sure I failed. So years later I'm going through the internet to achieve my life dream. Don't really care about a degree at this point. But I am finding some amazing people sharing knowledge online! I just found this guy.
I have watched the deluge of disappointing videos about electronic components and circuit analysis on UA-cam but yours was an exception. I truly enjoyed your presentation in this video. The color-coding, the content selections, your articulation and your excellent ability to break down the concept into an easy to grasp segments take the understanding of the circuit analysis onto a whole different level. I thank you immensely and thank you for the LTSpice pointer.
Ughh!!! This is so helpful! Thank you so much for posting this. I am doing some refresher for my FE Exam right now and everything that I need to remember about circuit analysis are in this video! I really appreciate how you explained the variables that you used for the given formulas like what are the resistors you have to put up top and the reason behind it. So brilliant!
My Aim As Engineer was to do a quick brush-up for those rusty information, but your amazing video force me to watch till the end. I really appreciate the time and efforts you put on this one.
Fantastic Explanation! Seriously, I'm taking an Electronic Engineering course and none of my instructors come close to the simplicity of what you've done here.
I was starting to regret why I went back to school and these online learning doesn't make it any easier. Thank you so much for this, even after 7yrs it's still very helpful 😊
Encore!!! Part 2 Please!!! You are the best teacher on this subject imho. I thought this subject was hard to understand. No matter how many times I kept coming back to this material it just seemed like it was very hard to understand and it was going to take countless hours of studying and tutoring just to understand what was going on. I can't believe you explained Thevinin and Norton in a way that was so understandable. I got it! The professors made it seem so complex to me. A thousand thank you's. I wish you could post more videos that would cover two semesters of circuit analysis.
+Chanese Smith Thanks for your awesome comments. Means a lot. I made it about 3/4 through the 2nd video in this series which is on dependent sources, transistors and op amps, but then got bogged down with moving back into school. I'm trying my best. It'll be up as soon as I get around to it.
You're a great teacher my dude. The way you take care to explain everything very slowly and very clearly, and preemptively addressing any possible sources of confusion, is excellent.
On 1:30:44 you can actually apply the same principle he told us about having a current source with paralell to resistor, so 6mA*12K = 24V, due to polarity -24V. Then you subtract the positive 20V u got when isolating voltage source and u get the 20 V final on Vout. A great video without a doubt!.
thank you so much for these videos, helping me pass my electrical circuits class when class isn't enough. Much appreciated. I'll be showing this to class mates that are having some trouble too!
I really don't think you understand how great of an explanation this is. It was often the "minor" things you added in that triggered lightbulbs for me. I'm saving this video as it's an incredible reference. Great work.
Good to recap after 40yrs (where have the years gone?), surprising how you forget the basics (but soon remembered with help). Many thanks for the good video, have subscribed.
Excellent knowledge in maths, physics & electronics... Reminded me of learning during college days while learning physics...very simply with efforts explained.
Fantastic video!!! I've spent a lot of time reading and watching videos trying to gain a better understanding of fundamental circuit design and analysis and you have presented it in such a way that I actually get it (FINALLY). Thank you for taking the time to put this series together. I have notebook and pencil ready and am moving on to part 2.
SIR watched yr video on DC CIRCUIT ANALYSIS__PART1 THEVENIN AND NORTENS THEOREM APPLICATION. 1. It is my fortune that i came across this video by chance and able to understand the technique fully well. 2. Since i dont have a computer big screen i watch ed yr lecture on my mobile small screen. The DISPLAY TECHNIQUE you have adopted is so fine that is no chance of missing anything in display. It is all CLEAR AND SPLENDID. 3.. YR explanation/lecture is very clear and clearly audible. 4. Yr methodology and computer techniques has no parallel and 1st class. 5. Keep the methodology/technique SAME in the future topics of electronics. Today i feel confident in applying both the theorems which i wanted to learn for a long time. THANKING YOU VATSA
I liked so much the smooth transition between different ideas, details and topics. Also it was an exhaustive recap for the basics and fundamentals of circuit analysis. Thank you for your effort!
Great video. I always wanted to learn more about electronics and circuits, but with a decent understanding of the theory. I thinks this one come closest to want I searched for.
You are the savior of the universe man. I study at a TOP 10 university in the world I can say for sure that you are much better than the professor in my EE class. My own professor is just like Thanos, when he snaps half of the class fails. Thank you from deep in our hearts
Great simple explanation, I sat my whole semester in lectures.. and I nearly understood nothing. but this video made everything clear for me. Thanks alot 😀🙏
Thank you so much for making this video. It's a great job to simplify these heavy formulas. Excellent video I really appreciate ur efforts and time to make this wonderful presentation.
at 40:30 I couldn't understand the solving for v1 and v2 through matrix form the whole lesson was great thanks a bunch I wonder if you would cover the subject "Electronic Devices and Circuits" through your great lessons? Thanks again and please keep doing what awesome stuff you're already doing I wish more improvement and class!
I always struggled with electronics at school. We had a very bad teacher, who was unable to explain stuff. The only good students were those who already knew this stuff ;-) I wish I had your tutorial at school. Very well done! Thanks for sharing!
Correction: In the seconds 25:00, the formula Iout = Is. (Rt/Rx+Rt) should be changed to correct one as Iout = Is. ((Rt . Rx) /(Rt+Rx)). Because the equivalent resistance Rt is parallel with Rx, as R2 and R1 were parallel with each other and the parallel condition between Rt and Rx must be considered now.
Great video! One thing i don't understand is why you could ignore the left current in 1:32:34. Still don't understand why the current induced does not divide into both loops. The ignored loop even has less resistance. Is it because you used voltage divider?
So happy watching and paying attention to this lecture, i will keep practicing and watching more of SSW lectures thank you professor.this is the best and am not done yet..
just came back to add a comment and thank you for this video. After a semester of poorly taught electronics i really think this video made the difference between a pass and a fail in my final. So again thank you so much Tim you are a legend.
Hey, thanks so much. Best thing I could ever get out of making a video is hearing that it genuinely helped someone. Best of luck with school. Keep on truckin
Great video man! When can we expect to see the 3rd installment of your Circuit Analysis series? I’m learning this material much better than I ever did with 2 years of circuit theory and electronics. Keep up the great work man!!
Because they have to cater to the varied understandings of 200 peopl in a lecture theatre, and it's hard work with almost no feedback. This bloke has no interruptions, can go at his own pace. And I bet you you stopped the vid now and again to think about it. Professors can't do that.
At 22:54, you state that "most real-world circuits employ voltage dividers, not current dividers". It is true that power-providing sources are not current sources (rather, voltage sources)...BUT... current divider is a circuit analysis technique and will often make circuit analysis easier (well....not always). In the end, using KVL/KCL techniques (like node voltage, mesh current, etc.) are generally easier to apply.
Your videos are really splendid, i love watching them!! Plz upload more videos including the videos of microcontroller programming i.e c language programming.. Thanks :)
Retired electric. You did a good job explaining. I believe some note to look at as you went along would be helpful. Don’t get me wrong you gave a lot of information in a short time and we have to remember that sometimes people can’t follow everything because they are just learning about something that can not see . But you did a excellent video. Keep up the good work
Thanks. Yes, for the two videos after this one, I used a script, though still mostly off the cuff. The more advanced topics will likely benefit from more concise thoughts.
Thank you so much for making these videos. I'm about to start an electronics course this semester and this was a nice introduction to some of the topics I should be learning soon. I look forward to the next video in this series.
Well, I covered all this stuff over 60 years ago at college in the UK so this was just a reminder. I admit I didn't watch right through and fast forwarded a few times but I wish this had been available to me in 1960 because it's so well explained. Excellent.
Wow, I just started watching. I would like to say thank you for this great way of presenting this stuff. So well done, so clearly explained. Great job!
Would help if when you say that I1 and I2 are flowing in the opposite direction if you drew the circle with the arrow in opposite directions as well . But great video and thank you for taking the time to share.
I am an EE graduate (class of 1989) and it is amazing how much one forget if you are not practicing or in the business of working on circuits every day. This video is one of the best tutorial and refresher I have ever seen. I sat through the whole thing and wide awake at that...I wish I had this guy for an instructor back then; but on the other hand I think he was just a baby then or wasn't even born yet. Probably I will get him as an instructor in the "Next Life". Great job. Thank you.
You are absolutely right. I was about negative 5 years old at the time. :) Seriously, thank you for your kind words. They mean a lot to me..and even more so, I am glad this video was useful to you.
Hey almandog. Im here trying to build a head amp for my pr99
Cool. That was the year I was born. I guess it's not too late to relearn and brush up on electronics and level up my career. I'm getting sick of being a clerk at USPS. I wouldn't mind staying at USPS but as an ET or IT.
This video is 6 years old and it is single-handedly preparing me better for a test in less than 2 hours than an entire month of school ever did. Thank you!
Thats sad ain't it?
@@coreyhooker4064 It is, unfortunately I'm in the same situation and this video is currently the best option by far. :D
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After nearly 50 years of electrical engineering theory and analysis, these series of lectures are among the very best. Takes me back to my rookie year at 16 years old with a British professor. Superb teacher!
Thank you!
I taught this for many years as part of a Uni EE101 Unit. If you are a student having problems with these concepts, I HIGHLY recommend you watch and learn.
My teacher tried teaching us these concepts for half of the semester. I won't say he was completely unsuccessful, but you manage to wrap it all up in an hour and thirty. If I were my teacher, I would play parts of this video per week and then work out practice problems. You explain it simply, yet effectively, while a lot of Circuits teachers don't realize that going straight to complicated example problems can become overwhelming for the students...
Thank you!
I have a masters in electrical engineering, and this brings me back to my sophomore and junior years in many ways. Good times. You are an excellent teacher.
I have been an electrician for 50 years. I enjoy every bit of your lecture. Thank you for your free effort. I very much appreciate you sharing this intricate subject that is so deep. Only the humble can absorb and digest knowledge. Not everyone knows everything but we can learn from each other.
Thank you so much.
ua-cam.com/video/SEUtgpShfIs/v-deo.html
ua-cam.com/users/shorts91BsVIaKPcM?feature=share
Also watch my UA-cam channel plz
This is honestly the best way to learn circuit analysis. Understood more in 1.5 hours, than I did in an entire semester.
I remembered the first time I watched your video. That was a year ago when I first started school as an electrical engineer major. I remembered how thankful I was for your video as your explanations are really spot on and diagrams used are all nicely color coded and easily understandable. I remembered having trouble understanding the node voltage analysis method and your video cleared all my confusions about the said topic. Since your video was so well-made, I stayed to finish watching the whole hour long of the video. I would totally recommend this video to anyway interested in the related topics and am writing this comment here as part of my assignment but also as a thank you note. Job well done.
+Theh WS Hey, thanks a lot. I'm not always sure how well I explain things, but I'm glad that the video worked for you. Comments like these keep my motivated!
Fell asleep on the couch looking at guides on how to use a multi-meter, woke up after hearing "R2" repeatedly thinking it was a discussion about Star Wars :D
😁😁😁😁😁😁
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The exact same thing just happened to me! I can't believe it
This was absolutely amazing. You did a better job explaining these concepts in 1.5 hours than my instructor has over the past half a semester. I am excited to watch the op-amp video before my instructor explains it so that hopefully I can come into the class well prepared
Breathless. :While tedious, the step by step, great displays, and constant plodding through a hugh subject. GREAT JOB!!!
Thanks for your input, I was about to give up on this after just a couple of mins into the vid - I will try and endure a bit more.
Jerry Crow iiooo
Owooo
"If you can't explain it simply, you don't understand it well enough."
Thank you!!
You're welcome! Thank you!
In my case it’s not always true
I believe you may be correct
well i'm a programmer and doing programming for 12 years, i understand it well but i can't find the words to explain it.
@tommy aronson sad to hear that tommy, it's hard tryin to get your thoughts out. right?
To lecture this material to 138,000 students it would have taken likely in excess of 5,000 sessions or 7,500 hours of your time. I think that alone shows where the future of education is going... thanks for piecing this together and executing it so well!
Thanks a lot! I think education should be a right and not a privilege. We're getting there.
2:59 E for “Electromotive Force, is measured in volts, not, volts is measured in volts.
And I for Induced Current, is measured in Amperes.
even though have a B Eng in Electrical/Electronics Eng'g, watching this video till the end was irresistible. its exceptionally explicit, it could win best instructional video award. the colour codings to distinguish circuit parts and equations regarding specific parts of the circuit was a super awesome idea. wish I could give a million likes at once. I would appreciate if you could give me clue on how to make such videos, whether it's a particular software or whatever. thanks.
Olajide Oyekunle Wow thanks! That's the kind of feedback that I like to hear! I make all of my videos in PowerPoint. All of the graphics are just combinations of basic lines and shapes. PowerPoint also provides a way to record and voice over your presentations. PowerPoint has its quirks, but overall, if you have version 2010 or later (2007 probably works too), the only thing you need to make videos like mine is a lot of time!
thanks a bunch for your response. And now the only thing remaining for me to make super awesome videos like yours is alotta PowerPoint tutorials. By the way, do you have any tutorials on such?
Olajide Oyekunle I don't think I've ever watched any tutorials on PowerPoint (not to pat myself on the back or anything). Usually, if I'm curious if something is possible or want to figure out how, I just Google it.
+Olajide Oyekunle thats good to know as a review thanks
Elon Ambrose you're welcome
This Lecture Video is really benefited me. The concepts in video presented in very lucid way. Solid State Workshop you did splendid work for technical community. I hope you will come again with new standard course video.
Amazing resource, this is probably the best circuit analysis explanation I've seen on UA-cam yet! Will be using this often.
i do agree
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Best explanation ever!! My native language is not english so sometimes other lecturer's videos are too fast and complicated for me. But you speak clearly and simplifying. Thank you
This is really good. I have a BS in physics, plus some graduate school, and I took electronics as an undergrad, and when I was done with all that, I could not sit down and design a doorbell circuit. I have looked at a number of online teaching sources, including MIT, and I found that they led me down rabbit holes and taught me useless, time-wasting things like reduced row echelon form and Cramer's Rule.
You're the first teacher I've seen who goes straight to nodal analysis without bothering with KVL. You tell students which things matter in the real world and which ones don't. Thanks for cutting out the worthless BS.
I'm writing my own circuit analysis method in order to get rid of the crap and confusion from other methods, and this video will be very helpful in editing it.
I, too, was taught that way in my college courses. Mathematics was one of them. Later on, I taught myself mathematics the right way. First, I learned about theorems. After that, I rewrote them in my own words. Finally, I devised my own theorems and applied them to the real world. I was working some geometric problems. One of them entailed finding the proportion ot a right triangle. I combined concepts from algebra and geometry to arrive at a generalization of calculating sides of a right triangle. And that was an amazing accomplishment. This is one thing schools do not teach: creativity.
I boggles my mind how one can do nodal analysis with bothering with KVL.
This was a very well explained video. I watched this simply for the pleasure of education. Even though I’ve graduated over 27 years ago I still could follow and understand the math. I absolutely love electronics!
💕💕💕💕💕💕💕💕💕💕💕💕💕💕💕💕💕💕💕💕💕💕💕💕💕
Nerd!!
Just kidding, I am going to watch this on repeat until I understand it…
1:13:18 Thevenin and Norton
1:29:05 SuperPosition
Actually 1:26:35 Superposition
You are by far the best teacher I ever hear.I did my electronic course in 1977, and this is the best overlook you presented here. Thanks
Hi i am also.electronics engineer
I was going to school for electrical engineering and my ex wife made sure I failed. So years later I'm going through the internet to achieve my life dream. Don't really care about a degree at this point. But I am finding some amazing people sharing knowledge online! I just found this guy.
@@mborowski2010 good point and very nice answer i ever read
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Freshly dove into an engineering class on advanced circuit analysis without the necessary background. This video covers most of it! Thanks so much! :)
Some lecturers have got it and some don't!
Well done!
I wish I was 40 years younger!
Great job!
I have watched the deluge of disappointing videos about electronic components and circuit analysis on UA-cam but yours was an exception. I truly enjoyed your presentation in this video. The color-coding, the content selections, your articulation and your excellent ability to break down the concept into an easy to grasp segments take the understanding of the circuit analysis onto a whole different level. I thank you immensely and thank you for the LTSpice pointer.
MrHrh747 Thank you!
Ughh!!! This is so helpful! Thank you so much for posting this. I am doing some refresher for my FE Exam right now and everything that I need to remember about circuit analysis are in this video! I really appreciate how you explained the variables that you used for the given formulas like what are the resistors you have to put up top and the reason behind it. So brilliant!
Jenna Bowles Glad it helped!
My Aim As Engineer was to do a quick brush-up for those rusty information, but your amazing video force me to watch till the end.
I really appreciate the time and efforts you put on this one.
Fantastic Explanation! Seriously, I'm taking an Electronic Engineering course and none of my instructors come close to the simplicity of what you've done here.
imagine if you have a friend like this, we build tube amp together !!
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@@vuxnguyen CB_OFFER
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I was starting to regret why I went back to school and these online learning doesn't make it any easier. Thank you so much for this, even after 7yrs it's still very helpful 😊
Looking back, I really hope one day you're able to make more of these lectures. This got me through freshman year circuit analysis finals
Encore!!! Part 2 Please!!! You are the best teacher on this subject imho. I thought this subject was hard to understand. No matter how many times I kept coming back to this material it just seemed like it was very hard to understand and it was going to take countless hours of studying and tutoring just to understand what was going on. I can't believe you explained Thevinin and Norton in a way that was so understandable. I got it! The professors made it seem so complex to me. A thousand thank you's. I wish you could post more videos that would cover two semesters of circuit analysis.
+Chanese Smith Thanks for your awesome comments. Means a lot. I made it about 3/4 through the 2nd video in this series which is on dependent sources, transistors and op amps, but then got bogged down with moving back into school. I'm trying my best. It'll be up as soon as I get around to it.
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You're a great teacher my dude. The way you take care to explain everything very slowly and very clearly, and preemptively addressing any possible sources of confusion, is excellent.
This video is still by far the best I’ve seen
Brilliant... I'm a first year aerospace student and my lecturer confuses me to shit! Absolute life-saver
On 1:30:44 you can actually apply the same principle he told us about having a current source with paralell to resistor, so 6mA*12K = 24V, due to polarity -24V. Then you subtract the positive 20V u got when isolating voltage source and u get the 20 V final on Vout.
A great video without a doubt!.
thank you so much for these videos, helping me pass my electrical circuits class when class isn't enough. Much appreciated. I'll be showing this to class mates that are having some trouble too!
Thanks I appreciate it!
I really don't think you understand how great of an explanation this is. It was often the "minor" things you added in that triggered lightbulbs for me. I'm saving this video as it's an incredible reference. Great work.
Thank you!
18 minutes in, and I have to say that this has to be the best presentation to explain these concepts that I have ever witnessed! Thanks!
Good to recap after 40yrs (where have the years gone?), surprising how you forget the basics (but soon remembered with help). Many thanks for the good video, have subscribed.
Great video! I'll be watching this again so I can practice. Thank you for posting!
Excellent knowledge in maths, physics & electronics... Reminded me of learning during college days while learning physics...very simply with efforts explained.
Fantastic video!!! I've spent a lot of time reading and watching videos trying to gain a better understanding of fundamental circuit design and analysis and you have presented it in such a way that I actually get it (FINALLY). Thank you for taking the time to put this series together. I have notebook and pencil ready and am moving on to part 2.
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Simply awesome! You just begin it with the basics in which a ground is built up that lifts the reader up understanding more advanced topics.
This was amazing!!! You summed up 3 weeks worth of material of my class in 1.5 hours. Perfect to study before an exam, thank you so much!
thats what you pay for, youtube got it better lol
Hi
Hi
c c c c c c c c c year 55865j state 8
@@SesshomaruSama15 Jnjjplmkmkmpju in
SIR
watched yr video on DC CIRCUIT ANALYSIS__PART1
THEVENIN AND NORTENS THEOREM APPLICATION.
1. It is my fortune that i came across this video by chance and able to understand the technique fully well.
2. Since i dont have a computer big screen i watch ed yr lecture on my mobile small screen. The DISPLAY TECHNIQUE you have adopted is so fine that is no chance of missing anything in display. It is all CLEAR AND SPLENDID.
3.. YR explanation/lecture is very clear and clearly audible.
4. Yr methodology and computer techniques has no parallel and 1st class.
5. Keep the methodology/technique SAME in the future topics of electronics.
Today i feel confident in applying both the theorems which i wanted to learn for a long time.
THANKING YOU
VATSA
I liked so much the smooth transition between different ideas, details and topics. Also it was an exhaustive recap for the basics and fundamentals of circuit analysis. Thank you for your effort!
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Great video. I always wanted to learn more about electronics and circuits, but with a decent understanding of the theory. I thinks this one come closest to want I searched for.
That is good.
So much hardwork and effort combined to construct this video. well done
You are the savior of the universe man. I study at a TOP 10 university in the world I can say for sure that you are much better than the professor in my EE class. My own professor is just like Thanos, when he snaps half of the class fails. Thank you from deep in our hearts
Great simple explanation, I sat my whole semester in lectures.. and I nearly understood nothing.
but this video made everything clear for me.
Thanks alot 😀🙏
Can't believe that he started to help me before 9 years .At the time i don't even know what the resistor is?thank you for your help
Thank you so much for making this video. It's a great job to simplify these heavy formulas. Excellent video I really appreciate ur efforts and time to make this wonderful presentation.
Nice nice nice hahahahaha
@@mattdayneilocampo1402 2
Cпасибо. Очень быстро освежил нужные знания. Отлично.
Thank you so much Sir! You literally explained this in an hour and a half what i couldn’t understand in half a semester.
Wow.. I wish my lecturer was as concise as you displayed in this video. Thanks for making life easy indeed
at 40:30 I couldn't understand the solving for v1 and v2 through matrix form
the whole lesson was great thanks a bunch I wonder if you would cover the subject "Electronic Devices and Circuits" through your great lessons? Thanks again and please keep doing what awesome stuff you're already doing I wish more improvement and class!
Great review for anyone who has taken circuit analysis and needs a refresher! Also I love how you went to TCNJ!
I always struggled with electronics at school. We had a very bad teacher, who was unable to explain stuff. The only good students were those who already knew this stuff ;-)
I wish I had your tutorial at school. Very well done! Thanks for sharing!
Thank you so much, that was really helpful! it helped me to refresh and remember a whole course I took at uni.
Thank you very much for sharing your knowledge using useful videos like this.
+100 Likes
waiting for Part 2 .....
Hasitha Gamage Thank you. I'll start working on it when I get home from school.
Colll
Correction: In the seconds 25:00, the formula Iout = Is. (Rt/Rx+Rt) should be changed to correct one as Iout = Is. ((Rt . Rx) /(Rt+Rx)). Because the equivalent resistance Rt is parallel with Rx, as R2 and R1 were parallel with each other and the parallel condition between Rt and Rx must be considered now.
Massoud Ashkzari That’s not correct. Just google “current divider formula” and you’ll see.
This video is so awesome it just auto played and got hooked plus the visuals really help understand everything thank you for doing this :)
Great video! One thing i don't understand is why you could ignore the left current in 1:32:34. Still don't understand why the current induced does not divide into both loops. The ignored loop even has less resistance. Is it because you used voltage divider?
i am watching you in the quarantine days. So I think you're very well Sir :)
7 years later and it's still the best video
Hands down the best video I've found for this content. Wish there was a part 2.
Fell asleep and woke up 50min into this random video. And its great
So happy watching and paying attention to this lecture, i will keep practicing and watching more of SSW lectures thank you professor.this is the best and am not done yet..
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just came back to add a comment and thank you for this video. After a semester of poorly taught electronics i really think this video made the difference between a pass and a fail in my final. So again thank you so much Tim you are a legend.
Hey, thanks so much. Best thing I could ever get out of making a video is hearing that it genuinely helped someone. Best of luck with school. Keep on truckin
This presentation is awesome, but I wish you gave more examples on each topic.
Good presentation. Very clear with helpful illustrations. Thank you!
Excellent lecture. So well done. Be proud of your work and how much we learn, much appreciated.
Thank you for speaking slow and clear. So people can have time to think about information they receive.
Great video man! When can we expect to see the 3rd installment of your Circuit Analysis series?
I’m learning this material much better than I ever did with 2 years of circuit theory and electronics. Keep up the great work man!!
Simply great. Congratulations for the simplicity and clarity.
Great job! It has been a long time since I used KCL and KVL. Thanks for the refresher!
Excellent journey and revising the world if fundamentals of the electronics . Thank you for your hard work.
Excellent! Seriously, why can't most professors explain things so simply???
Because they have to cater to the varied understandings of 200 peopl in a lecture theatre, and it's hard work with almost no feedback. This bloke has no interruptions, can go at his own pace. And I bet you you stopped the vid now and again to think about it. Professors can't do that.
At 22:54, you state that "most real-world circuits employ voltage dividers, not current dividers". It is true that power-providing sources are not current sources (rather, voltage sources)...BUT... current divider is a circuit analysis technique and will often make circuit analysis easier (well....not always). In the end, using KVL/KCL techniques (like node voltage, mesh current, etc.) are generally easier to apply.
Your videos are really splendid, i love watching them!! Plz upload more videos including the videos of microcontroller programming i.e c language programming.. Thanks :)
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This is the best introduction video on circuit analysis on the internet
literally woke up to this playing near the end and my brain was following it perfectly. That was pretty odd
I woke up and this was playing too 😂
Ok
Me three. So weird.
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BEST PRONUNCIATION WHICH IS EASY TO UNDERSTAND ALL OVER THE WORLD .
This video is beautifully concise, great work!
Retired electric. You did a good job explaining. I believe some note to look at as you went along would be helpful. Don’t get me wrong you gave a lot of information in a short time and we have to remember that sometimes people can’t follow everything because they are just learning about something that can not see . But you did a excellent video. Keep up the good work
Thanks. Yes, for the two videos after this one, I used a script, though still mostly off the cuff. The more advanced topics will likely benefit from more concise thoughts.
ua-cam.com/video/SEUtgpShfIs/v-deo.html
Thank you so much for making these videos. I'm about to start an electronics course this semester and this was a nice introduction to some of the topics I should be learning soon. I look forward to the next video in this series.
Well, I covered all this stuff over 60 years ago at college in the UK so this was just a reminder. I admit I didn't watch right through and fast forwarded a few times but I wish this had been available to me in 1960 because it's so well explained. Excellent.
You just ahhh you,,ahhhh Thank YOU!!!!!..Guys,pray for me my FINAL EXAM
what are you studying?
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What a wonderful explanation! Amazing, I think this is the only of the best simple explanation on this particular topic.
Thank you so much for your videos, they have helped so much, and are so detailed .
+Bill Richardson You're welcome! So glad they've helped.
Didn't learn much but got a great nap in. Thanks!
Wow, I just started watching. I would like to say thank you for this great way of presenting this stuff. So well done, so clearly explained. Great job!
Good sequence, good explanation and good designs. Perfect
You are really gifted, awesome presentation, you have really refreshed my knowledge in electronics. Thanks and stay blessed
Thank you good sir!
Awesome buddy, (You are a real teacher)
Would help if when you say that I1 and I2 are flowing in the opposite direction if you drew the circle with the arrow in opposite directions as well . But great video and thank you for taking the time to share.
amazingly thorough yet concise. Best tutorial ive ever come across
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THANK YOU VERY MUCH FOR THIS! YOU HELPED ME A LOT, COULDN'T STRESS THIS ENOUGH. THANK YOU!
Information is very impressive.My teacher thank you very much.Accept my respect