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.

Nice work. Thank you. New generation is very lucky. When I was an engineering student (30 years ago) we had only paper, pencil, books and blackboard. These kind of videos should be considered as a big revolution in education.

OMG! I've been studying all this stuff on my own and when I started investigating concepts around Resistance I came to a similar idea about the fallacy but couldn't articulate it since I didn't know enough. I'm so greatful that this video goes into it because I thought I was crazy lol!

Now I finally understood why resistors in parallel gives less recistance.

The mentioned fallacy states that a law which has been formulated is a mathematical representation for a model that describes something observable in the real world. That one model works together with all the other models may seem like a coincidental happenstance to critics of science, but it actually is a beautiful hint that the 'laws' are just implications of higher abstractions. Some people say scientists act like there is only one truth and they know it. Maybe some scientists are that way. But the truth is, scientists just state that their model works and fits in the picture.

I really thank you. Your video is a simple and clear illustration of how voltage, resistance and current intensity interact. One can watch it OBSERVE, SEE how it works clearly. You are helping lots of people to really understand the basics of electricity. Thank you.

I recently created a Patreon account for people who want to help support my channel. The link is on my KZbin home page and in the video description up above. Also, in case, you have not already seen them, I uploaded several other videos recently. As always, for each video that you like, you can help more people find it in their KZbin search engine by clicking the like button, and writing a comment. Lots more videos are coming very soon. Thanks.

Ohms law also states .....provided that the temp remains constant

Thank you very much, your lessons makes things so crystal clear replacing memorization with real, deep understanding.

This is a very impressive animation that actually clear the doubts and expose the actual practical concept behind. Thank you for making such videos.

Resistance is futile!

You are helping millions of students around the world..........................................never stop

When showing a higher or lower value of resistor may be better by lengthening or shortening rather than make the resistor a smaller diameter for a smaller resistance; because typically a smaller diameter resistor does not indicate less resistance but more resistance. I also agree with a previous comment of "but that doesn't mean that the voltage drop across a ckt element is not proportional to the current flowing through it " Thank you for your animation and will looking for to an update.

Ohm's observation was that the apparent Potential drop across an ideal Resistor is proportional to the Current through it. So, V=RI would be the linear model accounting for V versus I data. Yet, one uses I-V characteristics, which gradient equals 1/R (conductance). This tells us how fast the charge transport can be through the Resistor. Hence, Resistance is a measure of the charge transport time! *R ~ t* Yet, in a real _ohmic_ resistor, temperature might increase with time, so the I-V slope changes, depending on the experimental procedure...

"There are many examples in logic where a statement is always true simply because of the way in which we created our definitions for the words, and the statement doesn't actually tell us anything about the external world around us.This one of the logical fallacies we need to watch out for, both with regards to science and also with regards to life in general." Boom.

Not only are these videos perfect visual presentations, but the final thoughts of this particular video was almost existential. :) Love your work, thanks.

You can help translate this video by adding subtitles in other languages. To add a translation, click on the following link: kzbin.info_video?v=G3H5lKoWPpY&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.

MAF sensors in cars use this property of resistors to measure the volume of air passing through it. Excellent video. Keep up the good work!

I just watch half the video and this channel is one of my favorits now

Eugene, the way you create your videos is genius. I always enjoy watching them.

My momma always said, "Life is like a box of resistors. You never know what you're gonna get."

Thank you! I have been trying to make sense of this for years. A little closer. Love the ending.

Finally I came to know about Resistor ! Thanks for the video !

Your channel is great source to understand difficult concepts by esay way. Please make electrical machine related videos.

Totally love your videos, they take something that may seem so abstract at first and turns it into a concrete and visual explanation that is incredibly helpful when studying physics. Thanks again!

I'm using these videos in my class, these videos are helping my students a lot.

i have multiple accounts, and multiple times i would find your videos for mutiple reason. And, in all of those scenarios, i would like, subscribe and thank you. So here i am again: Thank you.

these videos are so coincidental because I just started my circuits class and it's like you make videos following the progression of my class :)

Khutoryansky's definition: "Physical laws tell us how the Universe works." ( 3:27 ) Ohm's Law tells us that the resistance of an object at a certain time is equal to the voltage across the object at that time divided by the current through the object at that time. Because of Ohm's Law, if you know two of the three values (1. Resistance 2. Voltage 3. Current) for a certain object at a certain time, then you can calculate the third value of the object at that time. It is possible to calculate and consequently know the third value because Ohm's Law tells us how the three values work in the Universe. Ohm's Law tells us how a part of the Universe works, and thus is a law by Khutoryansky's definition of a physical law. The Universe works in way that when the resistance of an object changes (whether by temperature or some other change in the object), current through the object changes because the voltage across the object remains the same. Ohm's Law tells us about this way that the Universe works. "the statement doesn't actually tell us anything about the external world around us." ( 5:29 ) The statement of Ohm's Law tells us how the resistance of an object, the voltage across the object, and the current through the object are related, like how the equation F = ma (Newton's Second Law) tells us how the force applied to an object will relate to the mass of the object and the acceleration of the object caused by that force. "There are many examples in logic where a statement is always true simply because of the way in which we created our definitions for the words, and the statement doesn't actually tell us anything about the external world around us." ( 5:19 ) F = ma is always true because we have defined force as a thing measured in joules where 1 joule = 1 kg * 1 m/s^2, so of course X joules will equal Y kg * Z m/s^2. My first two paragraphs apply the same way to Newton's Second Law. Read them with the terms replaced: [Newton's Second Law] tells us that the [force applied to an object] is equal to the [mass of the object] [multiplied] by the [acceleration of the object caused by that force]. Because of [Newton's Second Law], if you know two of the three values (1. [Force] 2. [Mass] 3. [Acceleration]) for a certain object at a certain time, then you can calculate the third value of the object at that time. It is possible to calculate and consequently know the third value because [Newton's Second Law] tells us how the three values work in the Universe. If I am missing something, please explain. I will try my best to understand.

These videos are so good. I wish I had known about them when I was in Physics II a few years ago.

Ive spent hours upon hours trying to understand resistance and get an intuiative feel about how it worked and this video is the only one that got me to figure it out.

The video was great and the music was stimulating. Thanks for sharing. I'm definitely gaining confidence in this subject. I appreciate it!

Feeling fortunate enough to find such quality content on electrical engineering

What's presented here is a simplified _model_ of the V I circuit relationship. You can write a more accurate model that takes account of the many other factors, but this version is good approximation for most DC circuits. Temperature co-efficients are easily accounted for but AC circuits, and RF circuits in particular, are where things get trickier.

Thank you! Thank you! Thank you! This has been driving me nuts for days, but now I get it. Absolutely brilliant animations! ❤️💡❤️

Hi Eugene, during my studies in high school I would have needed these kind of representations of how electicity works. Now, all thank to you, I can put images and representations on what I know of electricity, and it makes way more sense

Excellent video and very clear explanation, thank you so much!

These animations are stunning! You make it easy to understand Ohm's Law. But personally, even at 2x speed, I find the video to be extremely slow. I guess that it makes these videos perfect for teachers in physics class, as they don't need to pause the animation during an explanation. Good work, keep it up :)

In programming, this would be called a leaky abstraction. It's an analogy that works most of the time, but "leaks" under certain circumstances.

What a beauty! You seamlessly intertwined Life philosophy with Science at the end. You are THE BEST!😊

How does Wats compare to ohms. How do you line watts up with ohms and get the best sound out of the speakers?

My high school teacher told us to think of resistance intuitively as of the amount of collisions that the electrons experience as they go through the wire, for example.: resistance increases with temperature because the atoms in the wire (or within the resistors) are vibrating more and thus are more likely to impede the path of the electrons; also the longer the resistor or the smaller its cross-sectional area, the more collisions. Is there any way to relate this approach to the existing definition of resistance as voltage/current ?

Ohms law can be stated for puplis more correctly for many devices as " the resistance of a metal device of constant temperature remains constant". And resistor can be defined " a device for which Ohms law is valid". In the transation to greek language I made sime small changes in terminology to make video "compatible" with greek educational school system and definitions.

Came for Ohms law, left with a life lesson

Wow, very easy to understand these things explained things better than my instructors or teachers in college where they just read the books or what's inside the books in front without fully understanding the idea behide it and at the end we suffer. Thank you so much for making these kind of contents please continue doing

I summon thee Eugene of Physics Videos by Eugene Khutoryansky or anyone who can help :) what about defining Resistance in terms of resistivity , length and Area. Now one would say resistivity is self defined But no we can also relate it to fundamental physical quantities like mass of an electron , charge of an electron , relaxation time and number charge density(no. of electrons per unit volume). (further doubts) Isn't this the reason why Ohm's law specifically states that it's under constant temperature and physical conditions. And I LOVE your videos , IT FEELS SO GOOD VISUALIZING EVERYTHING , thanks so much for all your efforts.(TOO GOOD)

In an ciruit of DIFFERENT values of RESISTANCE connected in SERIES with an battery....WILL electric field ACROSS each resistance will vary??

Is the potential of a charge the energy of attracting other charges or its kinetic energy? Is the electron potential negative? What is the difference between positive and negative potential?

V=I*R is not really Ohm's Law. V=I*R is how we define resistance, as you have clearly stated. A better formula for Ohm's law is dR/dV = 0 and dR/di = 0. Ohm's law is that resistance is not a function of electrical operating conditions. Given a resistor of a material that doesn't change identity or geometry, that is maintained at a particular temperature by an independent system, its ratio of voltage to current is the same no matter what the voltage or current is. That is what Ohm's law is.

Yes, thank you. Some straight answers for once. I don't know why there is all of this misinformation when learning things like this. I'll have to check out your other videos. Thanks again.

this was truely amazing :) thank you again for a lovely video.

How does the current flow through the wire when both ends of it are at the same potential ?

Sir, your videos are really helpful in getting a feel of the concept. Sir, could you please make videos on working of Diodes and Transistors. I am really struggling in understanding the working of these semiconductor devices.

This is for the visual learners lol

fantastic video and great animation. Thank you for sharing.

are you saying that the rise in temperature corrolated with the change in resistance cant be measured: then usimg it in the original R=V/C

What is the resistor I can use?

Thank you for the subtitles.

excellent video! could you tell me the name of the software you use to animate the images.

Well said, "both with regards to science, and also with regards to life in general".

superb.. ..visulalizaton is ultimate.... Thq Eugene Khutoryansk.. really interesting

Great video, as always!! Thank you!

I would love to see you do some stuff on RF through Coax from an electrical perspective

These transitions are blowing my mind.

There is always in everything we generally assume. We must assume for something to be right. That is generally speaking about language. Language is a memory we all share. We can have different understanding of words, we might associate words with each other, and we might have strong or weak feeling connected to words. Without knowing the meaning of words before hand we cannot use unknown words to communicate with others. Just like you does not understand other languages when spoken. When it comes the subject of resistance: without further information and without giving it context. The formula of resistance is a simplified version of reality of resistance, in other word incorrect when it comes to accuracy. We need to assume temperature is included when calculating voltage of material for the formula to be right. Maybe we can get the right resistance with high accuracy if we take material purity of the conductor, absolute mass of material, absolute electron charge, molecular structure of the conductor, and take into consideration molecular structural change of the conductor during operation, then we can get more accurate resistance. But we are not much interested to include all the measurements for general application. The formula of ohm is a workable formula for general use, but not for quantum purposes where nano accuracy is demanded. Depending on demanded accuracy of calculation, the formula as it stands in my view does not qualify as a law. Since it does not include needed details to make it right and indisputable. It lacks information to make itself complete. Feel free to correct me.

Hmm... I never though about that, Thanks, your videos are descriptive.

It's really amazing. .thanks eugene ☺☺

I really needed this. Thx a lot for this amazing video ❤️✨

1. There are preconditions to this law such as 'under constant temperature' which is to imply that the law would be talking about a simplified model of real life system like most laws in physics. Therefore, it is to be used more as a guideline rather than as a law beyond textbooks. 2. The statement is also not R=V/R. Ohm's law statement is that current flowing (the effect) is proportional to voltage (the cause) across the resistor. Resistance is only the constant of proportionality to represent the law as an equality. Therefore, the law is not responsible for a variable resistance. Even under changing conditions (under the preconditions mentioned in 1), the law still holds.

I like your videos because it very difficult to visualise it ,now it is very easy and clear Plz try to make physics videos in all topics of class 10

which software do you use for creating animation ?? really nice videos!

Everyone should thoroughly understand this tutorial before going any further. A thank you.

thank you very much .you r my virtual best teacher

I absolutely love these videos, they are beautiful in presentation whilst perfectly coupled with simplicity in explanation ...I wish I had access to this material as an Apprentice Electrician 30 years ago. It would have sped up my theory learning curve significantly. Amazing job....thank you

Do you have a video about thevenin and norton theorem?

You really helped me a lot in my degree, I realy thank you, you doing a good job, I hope you make more videos especially in quantum mechanics and thermodynamics.

This video is worth thousand textbook pages. Also it is very enjoyable. I take my hat off to you.

Thank you so much for your help

Does the logical fallacy apply to measurements like temperature?

Great explanations and fantastic animations! Superb music, also!

Is your battery is the wrong way up? I was that taught electron flow from -ve to +ve. In the very informative animation it looks like the +ve terminal is where they are coming from.

so hold on. when the resistance changes as the resistor heats up, why does this change "ohms law" isnt that only changing one variable of the equation continuously, thereby changing the answer continuously? i dont know but doesnt it seem like ohms law is ever changing, along with the resistance?

I am not sure about this definition thing, as far as I know (let me know where I am wrong) resistance is defined as a property of an object, much like line in geometry is defined as an "undefinable object" and the law tells us how a few of such values are connected, much like geometrical axioms tell us the relationships between the "undefinable" elements: lines, dots, planes, space... This way you can always polish the law without being concerned about definition: what if it doesn't work in high/low temperatures, close to light speeds or in an uninertial system? You don't have to change the definition, only the law, if it proves easier to do that (because of some other laws regarding the same values).

"Having more resistors is like having a smaller resistance." This choice of words illustrates exactly why I don't understand that splitting up the track increases the current.

I FINALLY GET IT WHY YOU NEED TO SUM ALL THE VOLATGE CREATED BY THE RESISTORS WHILE STACKED IN SERIES . THANK YOU SO MUCHH

At 3:15 I suggest the pink arrow of the voltage of the resistor to be pointing down only to indicate that it's voltage drop

love these videos .....

But as the resistor changes value with temperature, the current flowing through that resistor also changes as V/R right? Or is this about the difference between an analytical law vs an empirical law? Mathematical laws are self consistent in mathematical "space". But as soon as you assign a mathematical law to explain the behavior of an empirical phenomena, that mathematical law becomes provisional- just as a theory is provisional. Who's to say what new phenomena will be discovered? Otherwise I like your presentation!

2:06 is it because the charges have more paths to flow through?

By which software you make these kind of videos Please reply From india

Original statement that Ohms law is NOT a law is at best MISLEADING and at worst plain WRONG! Ohms law established formula that Resistance R is proportional to the resistivity of the material (constant but different for given materials, such as copper, aluminum, gold, etc.) and the length of the wire and inversely proportional to the cross-section of the wire. That is the indeed the Law that Gerhard Ohm found. The reason why the resistance changes with temperature is precisely due to increase of the length of the wire with temperature increase resulting in proportional increase of the resistance. So, it is indeed a LAW even when you considered temperature effect! My daughter has made an experiment for sixth grade class of verifying Ohms Law by using different materials, like copper and aluminum wire and changing their length and measuring the current for a given DC voltage source to verify the above formula for Ohms Law. In fact, for magnetic circuits, Ohms law serves beautifully to introduce the equivalent dual concept, the Reluctance of the magnetic circuit as proportional to permittivity of the magnetic material, and the length of the magnetic core and inversely proportional to the cross section of the magnetic core. The AC inductance is then defined simply as turns squared times the reluctance! Dr. Slobodan Cuk (former Professor of Electrical Engineering at Caltech and inventor of Power Electronics switching converters). See my videos on KZbin.com/slobodancukTESLAco

Ok so in any case anyone is still in the comments. Could someone clarify this for me? What this video is impling is that: "Ohm law does not define resistance outside of it, therefore it's not a law". In the principal example of Newton's second Law, that even without (F=M*a)acceleration could still be defined in some way. The reason of not being a law is that the Resistance does not have a *constant* for the actual resistance, since it would decreasse with temperature. So if in some way we define a constant for the *material* with the resistance at certain temperature; and another one for the *amount that it changes with temperature* and relate that through the current passing. Then it would be defined as a law? Like: *R = Constant - ValueOfChange*DiferenceInTemperature.* This way we could explain how the material change, and find a way to discover temperature by the new resistance. I mean this is what we did with most atomic numbers. Found the value for a constant and related that with somethin. Molar mass and avogrados.

Thanks for the upload. Could you make a video explaining Euler's identity e^i*PI = -1 and the transformation between time and frequency domains?

Thanks for the video! You obviously know a great deal so we must ask you why, oh why, the intrusive music? Best of luck!

Amazing! wish this was how it was explained to us in school :(

what happens when a switch is connected and you open a switch,I mean how does a battery knows that a switch is opened And what happens to the electrons , do they get stuck or what??

Wonderful job, thanks you so much

That's the reason why current is same in series circuit. The Resistors reduce the voltage and so, as I=V/R, so reduced voltage will automatically result in reduced current! As less potential difference will cause lesser attraction and slow the current down.

Go ahead dears.I have learnt many new idea of current laws.May allah bless you.Carry on. Thanks for creating such an animation vedios.

Great tutorials, thanks for showing