At 3:10 you said, "we have to imagine there are cars EVERYWHERE." That my friend is what made everything click. Amazing explanation. I don't know why people don't just come out and say this. Thank you very much.
@@harshad1526 once battery is connected it develops potential diff. B/w the two points. Due to this electric field is created in a certain direction (from higher to lower potential). And we know the free electrons are present everywhere in the wire. So they will go in a particular direction i.e. opposite of the electric field. There is no first electron.the electrons are everywhere in the wire (from start of the wire to the end of wire ) Just u connect a battery they all will go in a particular direction.
I like to talk about such conceptual stuff, stuff that's ignored by most textbooks, and regarded as 'silly' by most teachers. So if you have fundamental doubts, please comment and I will consider making videos on them!
I was also confused about this. I asked many teachers they said don't have to worry too much you will learn in higher classes bla ! Bla! Bla. So I always have to forget my doubt 🥺. I just mug up the concepts. Thank you very much for this video'!
Thank you so much. I had the same doubt but never asked my teachers as I thought they might think its silly....I finally understood what i had missed in my thinking process- we shouldn't consider a single electron.
@@Mahesh_Shenoy Sir i have a doubt.As we know that Electric filed is 3 Dimensional that is why we use spreaded Electric Filed Lines in all direction across Electric Charge.But is Magnetic Field also 3 Dimensional?If it is 3 dimnsional so why we use right hand rule and predict the magnetic field created along a wire in circular direction?If Magnetic field is 3 dimensional then why we not say that magnetic field will be spreaded in all directions rather we say it is circular and thus limiting it to one dimensional? Please Reply or make a video?
A doubt that has been haunting me for years .... yet i couldn't find a scientific explanation . But this video cleared all by doubts ....THANK YOU !!!!!!!!
I am currently a technician for CAT and have taken many classes for electrical but only at the technician level, what you explained in the beginning has been hurting my brain for so long, I could never understand !! I finally understand after watching this video. THANK YOU SO MUCH.
I can't believe this is the only intuitive explanation I could find after hours of searching articles and videos... and yet it's so simple! Thanks a million
why does the current stay the same throughout the circuit even though there is resistance in one part? The video explains a common misconception that beginners in circuits have that the current would slow down after passing through a resistor. Finally, thank you for making this video!
I had the same doubt and was confused a lot. But he gave a correct explanation with a proper reason. What a good example of cars to explain the flow of electrons. It had made the topic more simpler to understand. Thanks a lot ...
Oh boy, why you have such low number of likes, You deserve much more. I am in 9th grade and no one in the world thought me this way in those 6 months. I really had the same doubt and it is so beautifully explained.
Actually, the most important measure is the ratio of likes to views, and this video has 5 percent (right now) which is VERY good! If you look at most videos, the ratio is less than two percent.
I am amazed by this video, really great question presented here about a topic which we think we understand completely. So, the overall summary is that the current decreases due to the resistor, but it happens everywhere in the circuit and not just after the current has passed through the resistor in comparison to it entering it, I think it is analogous to a traffic jam, where if the cars in front slows down the whole traffic behind them gets slower. Thank you for posting such educating content.
Think about it this way- current IN A CIRCUIT, moves as fast as the current going through the resistors in the circuit allows. It cannot go faster than that. Great video! I always had problems with this and thought exactly as you, and people did not make sense and I've asked MANY over the years! They don't think that some people see things this way at first.
Superb explanation.... Now it's completely and absolutely clear .... WOW... WHAT AN EXAMPLE YOU HAVE USED TO EXPLAIN IT , HAS JUST MADE EVERYTHING SO CLEAR 👌👌👌👌👌 THANKS 🙏
Mahesh am a big fan of your physics videos. I am in year 7 and currently doing AP PHYSICS 2 in Khan academy. Simply amazed and at an aww at the ease with which you teach the most difficult topics of physics and make it super engaging and interesting. Big Fan, Troy.
Thank you, I got the same doubt and I was thinking how the current could be same everywhere, then I thought of the same logic as you said but I was little unsure about my logic but this video helped me gain confidence as someone else is also thinking like me which means that my assumption is correct and now I can explain my brother who is misunderstanding the concept. Thank you and keep making these kind of videos☺.
Thank you so very much! In middle school, we learn and the components of a circuit and in highschool, we jump to ohm’s law. My teacher was sort of irritated with the amount of doubts we had, and that most of them couldn’t be answered by a read-through of the textbook. This video explains the same way I was thinking of electricity, in a real-life application sort of way.
thankyou so much i always had doubts in circuits what do they actually do and how they really work but never had the courage to ask teachers thought they would make fun of me but thankyou because of you i can learn these concepts deeply THANKYOU!!
Thankyou sir, watched it on 11 October 2021, at 01:19 AM to learn both the question and its answer. Sometimes, I doubt, on myself, why I did not ask such simple but mind boggling questions?
Thank you soo much for this video got my doubts clear . Sir please make a video on " How parallel circuit resisters equalant resistance impacts on the whole current in the circuit "
Ohh awesome explanation I knew that the current is the same everywhere in the series connection but still there was some confusion in my mind that why..how...but this explanation clears everything....thank you so much 👍
I thought I was the only one who never understand it😅🙌, but you made us believed that having doubt is not lack of knowledge, it's just the way of teaching is not here
I request you to merge all that type of crucial conceptual videos that are not clarified by teacher's even though we ask them because they tell no reason behind these so make a playlist titled conceptual videos and yes you can divide them chapter wise also that will be more beneficial... Lot of thanks from India.
It isn't really. You have just two parallel roads one is faster, one is slower. Ok at the junctions the analogy falls apart a bit but if you ignore the j junctions or consider the junction the starting point, it equalizes. Kinda. Sorta. Guess you need to remember a resistance has global influence on both sides. But yeah the analogy gets fuzzy, since the simplified resistance if you calculate it for a parallel circuit is
thank you for your explanation. I am just thinking that the electrons on right side of the resistance could flow faster? because the effect of resistance is not there.
Hello, after watching your video, here is a question I have: Using this way to explain constant current, would that not mean should we have 2 resistors of same resistance in a circuit, lets say 10 ohms. Wouldn't that mean the maximum resistance is just 10 ohms and that it does not add together (which is wrong) Please and thank you.
Actually it’s a pretty easy answer. I just had to think of it. It’s basically 20 ohms so added up because you have to imagine the current being slowed down 2 times with 10 ohms and so the whole current is slowed down by a total of 20 ohms. Because there is another resistor it just slows it down even more.
is this true under rules like Heisenberg principle, electron superposition , idk maybe more I haven't studied much. Sir i am your big fan , u gave soo much motivation in physics. Sir u taught me how to actually understand physics rather than just blindly believing books. Thanks sir, i hope u answer my question.
Thank you so much sir ache se samajh aa gaya...par ek aur doubt abhi bhi hai pls sir iska answer bata dijiye --->agar sir same current hota hai pure circuit me resistance lagane par bhi fir sir agar hm uss resistor ke ends pe voltage ke +ve end p jyada aur -ve end p kam kyu hota hai?.. pls
To clarify, are you asking why one side of the resistor has a higher voltage than the other? Because as the charges move through the resistor, they lose energy and hence the potential drops!
@@Mahesh_Shenoy no sir, I know that there is drop in potential across any conductor(due to resistance offered by them) but my question is like when there is potential difference between the end points of conductor or any resistance then why not there is current difference between that point only(at the end of conductor or here, the resistor)?why current difference is is shown throughout the circuit and not potential difference throughout circuit but only across conductor??........did you got my question ❓ please answer me 🙏
@@Mahesh_Shenoy ok answer me that from what you said (potential difference drops due to energy consumption)u mean that energy drops na....then when there is change in energy i.e. electrons must loosed energy then their speed must change than current should also change na (i =q/t).....!?!?
Hello sir, sir this was a very good explanation a got your point that as electrons are tightly packed there is no space for them to move with greater speed....but sir my dobut is that if electrons speed would remain same then what is use of the resistor?if we dont put resistor then also the current will remain same so exactly what is use of resistor?
Hi! I'm late to the video, but just wanted to say your intuition wasn't wrong at all! At least in the transient state of the circuit (when the battery "kicks" the electrons). Alpha phoenix showed in his video "Watch electricity hit a fork in the road at half a billion frames per second" that the current initially moves at a speed set by the impedance of the cable (the amount of electrons in the cable) and when it hits the resistance it "updates" the rest of the circuit to diminish the amount of electrons flowing per unit of cable. This happens back and forth until it settles to a value set by the impedance of the circuit, and then your explanation can explain the steady state. I may be wrong about the specifics though, I just wanted to point out that the transient state needs another explanation (even in this simple circuit).
I dont think circuits have the same current everywhere. Sure the electrons are fairly compressed throughout the entire wire but thats the whole reason that voltage exists. If you have a higher voltage in a point its analogous to more clumped up electrons. Electrons are less clumped up further away so the electrostatic force moves them from an area of high voltage (high electron density) to low voltage (low electron density). A resistor is like a dam with a small hole in it. Before the dam the voltage is increased compared to the same circuit without a dam and after the dam the voltage is decreased. The best way to model electron flow is using water flow through collumns where flow rate is current and water level is voltage. A battery works almost identically to a water pump sucking water out of one end of the collumn and injecting it into the other. The only way that the water model diverges is in that it doesnt compensate for magnetic moments of electrons but this isnt too important
Or consider water flowing in a hose. Squeezing one part of the hose creates resistance. But water flows at the same rate both in and out of the constricted part. If it didn't then water would have to accumulate there and the hose would therefore have to expand until it burst.
@@levilev8435 But the rate of inflow (water volume/time) is still the same both going into and coming out of the squeezed part. The water pressure is higher on the outflow, but less volume of water is moving at the higher pressure. Same is true for an electrical circuit, charge/time is the same across a resistor even when the "pressure" (voltage) changes.
I actually have this intuition from a videogame Factorio. If you have a loop of fast belts that is fully filled with gears (the moment one gear stops, all the upstream gears hit each other and stop), and you put a slow belt in the middle, then your whole loop will be forced to move at this slow speed. Its important that the circuit is a loop though, otherwise all the belts downstream from the slow one would become less densely packed
At 3:10 you said, "we have to imagine there are cars EVERYWHERE." That my friend is what made everything click. Amazing explanation. I don't know why people don't just come out and say this. Thank you very much.
Yea, that’s the major misconception!
@@Mahesh_Shenoy sir but at initial time there are no car i mean no electron is front of the first electron when current starts to flow?
@@harshad1526 so at first the current is also more, upon passing through the resistor it reduces
@@harshad1526 once battery is connected it develops potential diff. B/w the two points. Due to this electric field is created in a certain direction (from higher to lower potential). And we know the free electrons are present everywhere in the wire. So they will go in a particular direction i.e. opposite of the electric field.
There is no first electron.the electrons are everywhere in the wire (from start of the wire to the end of wire )
Just u connect a battery they all will go in a particular direction.
...agreed.
I like to talk about such conceptual stuff, stuff that's ignored by most textbooks, and regarded as 'silly' by most teachers. So if you have fundamental doubts, please comment and I will consider making videos on them!
Next, physics behind the transformer
I was also confused about this. I asked many teachers they said don't have to worry too much you will learn in higher classes bla ! Bla! Bla. So I always have to forget my doubt 🥺. I just mug up the concepts.
Thank you very much for this video'!
Sir iam having doubt that why current is different in parallel connection and how voltage is same in parallel connection please clear this doubt sir
@@vairamanivaitheswaran3676 watch Khan academy video on equivalent resistor in parallel circuit,you'll get answer to both your doubts
Thanks bro
Now I can sleep peacefully.
Yeah.... literally man😂.....i am already at bed but couldn't sleep.....but now i can.....i am at peace 🤌♥️
Lost hours today trying to grasp this, despite using countless sources. This is beautifully explained. Thank you so much for this from France :-)
Thank you so much. I had the same doubt but never asked my teachers as I thought they might think its silly....I finally understood what i had missed in my thinking process- we shouldn't consider a single electron.
Yes yes, that’s what I always missed too!
@@Mahesh_Shenoy Sir i have a doubt.As we know that Electric filed is 3 Dimensional that is why we use spreaded Electric Filed Lines in all direction across Electric Charge.But is Magnetic Field also 3 Dimensional?If it is 3 dimnsional so why we use right hand rule and predict the magnetic field created along a wire in circular direction?If Magnetic field is 3 dimensional then why we not say that magnetic field will be spreaded in all directions rather we say it is circular and thus limiting it to one dimensional?
Please Reply or make a video?
@@knowledge23109 Because magnetic field is angle dependent but electric field doesn't depend on angle.
I just saw HC Verma's short video on this same question and your explanation made much more sense.
me tooo
it was disturbing m from like a month and his video is good but not detailed
@@bellarose6222 yeah me too his video was in detail but this mans video is the best
hc verma's video was way better
@@arneshpal7702 no it was not hes goat not hc verma he is knowledgeable but it does not mean he cn be a good explainor
A doubt that has been haunting me for years .... yet i couldn't find a scientific explanation . But this video cleared all by doubts ....THANK YOU !!!!!!!!
I am currently a technician for CAT and have taken many classes for electrical but only at the technician level, what you explained in the beginning has been hurting my brain for so long, I could never understand !! I finally understand after watching this video. THANK YOU SO MUCH.
I can't believe this is the only intuitive explanation I could find after hours of searching articles and videos... and yet it's so simple! Thanks a million
why does the current stay the same throughout the circuit even though there is resistance in one part?
The video explains a common misconception that beginners in circuits have that the current would slow down after passing through a resistor.
Finally, thank you for making this video!
Well,the current doesn't stay same if there is resistance. Rather the current decreases but for the whole circuit.😊
I had the same doubt and was confused a lot. But he gave a correct explanation with a proper reason. What a good example of cars to explain the flow of electrons. It had made the topic more simpler to understand. Thanks a lot ...
Mann!!!was scratching my head for a very long time...just pin point explanation..thanks!!!I won't forge U in my life!!
Oh boy, why you have such low number of likes, You deserve much more. I am in 9th grade and no one in the world thought me this way in those 6 months. I really had the same doubt and it is so beautifully explained.
Yes you do deserve much and much more likes with thanks ❤️👍
Actually, the most important measure is the ratio of likes to views, and this video has 5 percent (right now) which is VERY good! If you look at most videos, the ratio is less than two percent.
How are you doing these days bro? Been 2 years you are in class 11 now
@@Armicus334 🗿🗿🗿 OMFG yes! Preparing for NEET. See me in a medical college after 2 more years.
@@ayushchavan2741 W bro wish you all the best 👍🏻.
I am amazed by this video, really great question presented here about a topic which we think we understand completely.
So, the overall summary is that the current decreases due to the resistor, but it happens everywhere in the circuit and not just after the current has passed through the resistor in comparison to it entering it, I think it is analogous to a traffic jam, where if the cars in front slows down the whole traffic behind them gets slower.
Thank you for posting such educating content.
I’ve been so confused by circuits in my engineering classes, this video just made everything click. You are amazing.
Bro you literally made my doubt very clear i was searching it everywhere i tried many teacher but youbcleared it 💯💯💯💯🤘🤘
Thank you so much. Really appreciate these videos clearing the doubts that my teacher made fun of me for asking. 😁
Think about it this way- current IN A CIRCUIT, moves as fast as the current going through the resistors in the circuit allows.
It cannot go faster than that.
Great video!
I always had problems with this and thought exactly as you, and people did not make sense and I've asked MANY over the years! They don't think that some people see things this way at first.
Absolutely! This would be true even if there was a single electron in the circuit!!
That was such a brilliant explanation and video! Thank you so much!! A higher resistor slows down the entire loop!
Mai es cheez mai 2 salo se confuze tha our ap ni aik mint mai ye confusion hatm kia . Thank you so so so so so so much .
Perfect and easiest explanation seen so far on youtube.....hatts off🙏🙏
Wow, good to know that! Thanks!
I've always struggled with what you just explained. Shoo thank you a million.
Superb explanation.... Now it's completely and absolutely clear .... WOW... WHAT AN EXAMPLE YOU HAVE USED TO EXPLAIN IT , HAS JUST MADE EVERYTHING SO CLEAR 👌👌👌👌👌 THANKS 🙏
Thanks for conceptualizing current with the car analogy, I never thought of it like that but now it makes more sense. Thanks!
You literally save me a headache and hours , thank you 😊
Well explained, I literally though the same as you, that current slows in one part but not in another
Absolutely loved the energy and explanation
Mahesh am a big fan of your physics videos. I am in year 7 and currently doing AP PHYSICS 2 in Khan academy. Simply amazed and at an aww at the ease with which you teach the most difficult topics of physics and make it super engaging and interesting. Big Fan, Troy.
Thank you, I got the same doubt and I was thinking how the current could be same everywhere, then I thought of the same logic as you said but I was little unsure about my logic but this video helped me gain confidence as someone else is also thinking like me which means that my assumption is correct and now I can explain my brother who is misunderstanding the concept. Thank you and keep making these kind of videos☺.
Thank you so much. I had the same doubt but never asked my teachers as I thought they might think its silly....I finally understood ❤
Thank you so very much! In middle school, we learn and the components of a circuit and in highschool, we jump to ohm’s law. My teacher was sort of irritated with the amount of doubts we had, and that most of them couldn’t be answered by a read-through of the textbook. This video explains the same way I was thinking of electricity, in a real-life application sort of way.
Same doubt came in my mind when I studied about circuit but cleared all my doubts, thanks a lot 😊
Bro thanks a lot. at first I had a big confusion about this situation. but now I understand what happens .thanks a lot dude .... amazing explanation.
Awesome, I am glad it helped.
thankyou so much i always had doubts in circuits what do they actually do and how they really work but never had the courage to ask teachers thought they would make fun of me but thankyou because of you i can learn these concepts deeply THANKYOU!!
I watched so much videos for this question but i can't understand it anywhere,
Only this video made me understand the cot.....Thanks
TH-cam should have more than 1 like
button, I want to like this video as many times I want♥️
You explaination is really awesome sir, Thank you very much 😊
You just satisfied my curiosity. 😌
Thank you so much! ✨🌟
Amazing to hear that. Thanks, Maulik
Thank you so much! I've been trying to figure this out for hours!
Daammmmmm bro you saved my couple months
Tks soooooo much 😫😫😫😫😫😫
Thanks a lot for explaining with the correct mental model
You are welcome:)
I have wondered about this since 10th standard. Thanks
Thankyou sir, watched it on 11 October 2021, at 01:19 AM to learn both the question and its answer. Sometimes, I doubt, on myself, why I did not ask such simple but mind boggling questions?
I too didn’t, earlier. Don’t stress it!
Thank u. I also thought the same. And yes, I forgot that there are many electrons. You just enlightened me
Finally got the correct explanation... Thank you
Thank you soo much for this video got my doubts clear .
Sir please make a video on " How parallel circuit resisters equalant resistance impacts on the whole current in the circuit "
Ohh awesome explanation I knew that the current is the same everywhere in the series connection but still there was some confusion in my mind that why..how...but this explanation clears everything....thank you so much 👍
Please make videos on those fundamentals and help students clear their basics. That's what we want and you would be knowing that.
OH MY GOD THQNK YOU SO MUCH THAT MAKES SENSE AND YOU ARE THE BEST EXPLAINER. YOU JUST GOT A NEW SUBSCRIBER AND LIKED THE VIDEO THANK YOUUU SO MUCH
Awwww! Thanks.
I made some follow up deep dive videos. Hope you find them useful too!
Wonder full explanation. Pleas make video about voltage in series.
Did that. Thanks for the recommendation
THANKYOU SO SO MUCHHHHH. Your example was wonderful and intitutive.
Big Thanks to you! , You explain lucidly!🌺
You are welcome :)
I thought I was the only one who never understand it😅🙌, but you made us believed that having doubt is not lack of knowledge, it's just the way of teaching is not here
Thank you so much, this helps me a lot to understand even more about circuits!, that's a good analogy you have right there
I request you to merge all that type of crucial conceptual videos that are not clarified by teacher's even though we ask them because they tell no reason behind these so make a playlist titled conceptual videos and yes you can divide them chapter wise also that will be more beneficial... Lot of thanks from India.
Awesome explanation.
Love your videos 🤩
What an amazing explanation!
The water analogy is better used and would help here. This video did explain how many others misunderstand the flow of electrons. (conventional).
Thank you soo much sir providing this type of clear and clarity video's and if you have time please make video's on inductor & capacitor.
Koti koti naman aapko ... ❤❤❤ Dhanyawad ❤ 🙏🏻👍🏻
Bro you deserve more subscribers and views❤
Well done, you deserve a Nobel Prize.
I'd say tha'ts going just A TAD too far
Nice explanation. My doubts got clarified. Regards and good wishes
Glad to hear that
Such a eye clearer after watching this video
i cant even tell you u are a real angel for me sirr i love u sir
Thank god(and you) I found this analogy
YOU ARE GOD FOR ME THROUGH THIS VIDEO😱THANKYOU FOR THIS EXPLANATION❤
Awww. But no, just a friendly neighbourhood teacher!
This is very well explained.
I had the same thought! Thanks for the explanation
You are welcome :)
It completely makes sense! But could you explain a little bit on why current is different in parallel circuits?
It isn't really. You have just two parallel roads one is faster, one is slower. Ok at the junctions the analogy falls apart a bit but if you ignore the j junctions or consider the junction the starting point, it equalizes. Kinda. Sorta. Guess you need to remember a resistance has global influence on both sides. But yeah the analogy gets fuzzy, since the simplified resistance if you calculate it for a parallel circuit is
Wow!Wow and wow! what an explanation 🎉🎉❤❤❤❤❤❤❤❤❤❤❤❤❤❤❤❤❤
thank you for your explanation. I am just thinking that the electrons on right side of the resistance could flow faster? because the effect of resistance is not there.
Hello, after watching your video, here is a question I have:
Using this way to explain constant current, would that not mean should we have 2 resistors of same resistance in a circuit, lets say 10 ohms. Wouldn't that mean the maximum resistance is just 10 ohms and that it does not add together (which is wrong)
Please and thank you.
Actually it’s a pretty easy answer. I just had to think of it. It’s basically 20 ohms so added up because you have to imagine the current being slowed down 2 times with 10 ohms and so the whole current is slowed down by a total of 20 ohms. Because there is another resistor it just slows it down even more.
Thank you so much for your amazing explanation, it drenched out all my doubts very easily, thanks bro....
Thanks, Raunak!
is this true under rules like Heisenberg
principle, electron superposition , idk maybe more I haven't studied much.
Sir i am your big fan , u gave soo much motivation in physics. Sir u taught me how to actually understand physics rather than just blindly believing books.
Thanks sir, i hope u answer my question.
Thank you very much sir 🙏 you clear my big doubt
Awesome to hear that
Really wonderful explanation
Thanks, Sabarish! Glad you liked it!
it was just fascinating . Thankyou very much !!!!
My headache gone out after this watching, thanks bro
Thank you! You made it much clearer :)
Great video man. Thanks
Thank you so much sir ache se samajh aa gaya...par ek aur doubt abhi bhi hai pls sir iska answer bata dijiye --->agar sir same current hota hai pure circuit me resistance lagane par bhi fir sir agar hm uss resistor ke ends pe voltage ke +ve end p jyada aur -ve end p kam kyu hota hai?.. pls
To clarify, are you asking why one side of the resistor has a higher voltage than the other? Because as the charges move through the resistor, they lose energy and hence the potential drops!
@@Mahesh_Shenoy no sir, I know that there is drop in potential across any conductor(due to resistance offered by them) but my question is like when there is potential difference between the end points of conductor or any resistance then why not there is current difference between that point only(at the end of conductor or here, the resistor)?why current difference is is shown throughout the circuit and not potential difference throughout circuit but only across conductor??........did you got my question ❓ please answer me 🙏
@@Mahesh_Shenoy ok answer me that from what you said (potential difference drops due to energy consumption)u mean that energy drops na....then when there is change in energy i.e. electrons must loosed energy then their speed must change than current should also change na (i =q/t).....!?!?
And ya btw I am very fortunate that you are helping me 😌 thk sir ❤️.... but sir still can you help me more in answering above doubt
Reply please it's urgent 😬
Hello sir, sir this was a very good explanation a got your point that
as electrons are tightly packed there is no space for them to move with greater speed....but sir my dobut is that if electrons speed would remain same then what is use of the resistor?if we dont put resistor then also the current will remain same so exactly what is use of resistor?
Hi! I'm late to the video, but just wanted to say your intuition wasn't wrong at all! At least in the transient state of the circuit (when the battery "kicks" the electrons).
Alpha phoenix showed in his video "Watch electricity hit a fork in the road at half a billion frames per second" that the current initially moves at a speed set by the impedance of the cable (the amount of electrons in the cable) and when it hits the resistance it "updates" the rest of the circuit to diminish the amount of electrons flowing per unit of cable.
This happens back and forth until it settles to a value set by the impedance of the circuit, and then your explanation can explain the steady state.
I may be wrong about the specifics though, I just wanted to point out that the transient state needs another explanation (even in this simple circuit).
Amazing explanation
I dont think circuits have the same current everywhere. Sure the electrons are fairly compressed throughout the entire wire but thats the whole reason that voltage exists. If you have a higher voltage in a point its analogous to more clumped up electrons. Electrons are less clumped up further away so the electrostatic force moves them from an area of high voltage (high electron density) to low voltage (low electron density). A resistor is like a dam with a small hole in it. Before the dam the voltage is increased compared to the same circuit without a dam and after the dam the voltage is decreased. The best way to model electron flow is using water flow through collumns where flow rate is current and water level is voltage. A battery works almost identically to a water pump sucking water out of one end of the collumn and injecting it into the other. The only way that the water model diverges is in that it doesnt compensate for magnetic moments of electrons but this isnt too important
I feel enlightened
very beautiful explanation💌
Sir mari dua hy ap hameesha hush raho
Thankss sooo muchhhh
I lost sleep thinking about this
Oh wow, I am so glad I could help!
@@Mahesh_Shenoy 🙏
Amazing explanation 💯👏
Or consider water flowing in a hose. Squeezing one part of the hose creates resistance. But water flows at the same rate both in and out of the constricted part. If it didn't then water would have to accumulate there and the hose would therefore have to expand until it burst.
but the water would come out faster if we squeeze it, which means it does somewhat affect the water flow
@@levilev8435 But the rate of inflow (water volume/time) is still the same both going into and coming out of the squeezed part. The water pressure is higher on the outflow, but less volume of water is moving at the higher pressure. Same is true for an electrical circuit, charge/time is the same across a resistor even when the "pressure" (voltage) changes.
So glad TH-cam algorithm just knows when I’m struggling to understand very specific certain things. 😂
Thanks a lot , it is really very helpful ❤❤❤
This type of video...i always wants💗
Just understood LIKE A WOW ❤
Oh my god hell yes I finally understand. That's awesome thanks . Great video
Great :-) I had the same confusion when I was preparing for exams 20 years ago.
thank you, this is actually a very good explanation.
I actually have this intuition from a videogame Factorio. If you have a loop of fast belts that is fully filled with gears (the moment one gear stops, all the upstream gears hit each other and stop), and you put a slow belt in the middle, then your whole loop will be forced to move at this slow speed. Its important that the circuit is a loop though, otherwise all the belts downstream from the slow one would become less densely packed