Capacitor : You take my energy ! Inductor : No, you take my energy ! Resistance in the circuit : Alright, I'll take the energy then

This is how physics should be taught.

Wow current students are so lucky to have such animations. I studied this in 1977 on a black board with white chalk. This is so clear.

Started giving to you on Patreon a few days ago and I have 0 regrets. Your animations do what hours of textbooks and papers cannot.

*"You take my energy"* I love how they care for each other.

wish i had this in my engg classes . as it is electical classes are tough as its intangible ,these vids are so helpful to grasp the concept.

This person like physics. He takes everything "physically", even the magnetic field have shadows 😁.

beautiful presentation of LC circuit. I've learned a lot from here. Thank you

In radio transmitters, sometimes we develop a low frequency (because it is convenient) and use it to 'ping' an L/C circuit which has a resonant frequency at a multiple of the low frequency. The oscillations set up in the tuned circuit can be extracted and amplified to give us an output on (say) 2x, 3x or 4x the input frequency. This is called 'frequency multiplication' and is used to produce an output on a UHF channel from an input on VHF or lower. This technique is not used quite so often nowadays as modern phase lock loops can directly generate UHF without multipliers.

😵❤️ You cant expect any other way to explain, than this !

Thank you for explaining such an essential, yet abstract subject in such a concrete and easy to understand way

Great engineers thank you for clearing this concept

What an awesome channel! It explains everything so clearly.

Thank you for these animations, I really needed this to visualize what was happening in the circuit as time proceeded.

It took me years and even graduated from electrical engineering, and by watching this video in just minutes I fully understand the RLC circuits.

I graduated from college and I was able to solve all LC equations yet! I didn't understand the concept since I didn't watch such an amazing video. Thanks

How I wish we had the internet back in the early 1970's when I was studying EE. An LC circuit is analogous to a spring and a mass. The first simulations of automotive chassis shock absorbers used RLC circuits.

Think of it like a pendulum. The capacitor is like gravity and the inductor is like the inertia of the hanging mass. If you start the oscillation on a pendulum, gravity first pulls the mass downwards and accelerates. When it reaches the center position, it doesn't stop because even though the force of gravity is no longer assisting it in gaining speed, the momentum of the mass forces it to keep going. The inductor does this by storing energy in a magnetic field, which continues to push the electrons in the original direction even though the capacitor is starting to act in the opposite direction. Only when the magnetic field have completely dissipated in the inductor will the capacitor be able to move the electrons in the opposite direction, thus reversing the current flow and causing the inductor to begin the generation of another magnetic field also in the opposite direction.

If only I had this video when I was in school ! Resolving equations and designing systems is much easier when you get the « feel » of it, it becomes more « intuitive » with such videos.

Great video, but i have 2 things that IMO should be said/animated a bit differently: 1.) The RC circuit. Nothing wrong with the explanation, but with the animation. Energy stored in capacitor is We=1/2*C*U^2. Voltage across capacitor is caused due to difference in how many more electrons more are on one of the electrodes. The animation might suggest, that all of the electrons go from one electrode to the other one. If that was the case, then we would have voltage with different direction. 2.)LC circuit. The animation is great, but now i would change the explanation a lil bit. Firstly, when the capacitor is connected to the inductor current starts to flow and thus the inductor begins to "charge up" thanks to the according to the Wm=1/2*L*I^2. When the current reaches its peak the voltage across the capacitor and inductor is U=0 because the same amount of electrons is on both of the electrodes of the capacitor and thus no energy is stored in the capacitor(Or mathematically when the function is at its peak 1st derivative of said function is f'(x0)=0). The energy is now stored in the inductor and now the indcutor "pulls" the electrons from one electrode of the capacitor to the other one and thus charging the capacitor again. Rinse and repeat until the end of time

Couldn't go another world series without you LC.

Capacitor: hold my energy Inductor: no u

Amazingly explained!!! now I love physics 👨‍🎓👨‍🎓

Wow what an explanation... The best video on KZfaq....

Perfect. Thank you!❤️

Love your videos. Learning loads. Thanks.

thanks !!! i just needed to understand LC circuits for an exam

Please, elaborate a bit more on the applications. Love your videos!

Thanks for this kind of Explanation , i already subscribe just of that , keep it up 🙂

Very good explanation keep uploading many animated video this helps to understand concepts in very good manner

Oh. Thank God. Finally someone had explained this perfectly. Now I can Die Peacefully.

This video is a blessing on the internet

Brilliantly explained

Beautifully explained

U doing an awesome work hats off

Please dive deeper in part of inductor why it behaves like that

Awesome video! Thank you!

I literally just stumbled on this video for the first time because I was doing some research and I noticed a lot of words that I wasn't familiar with. I put those four or five words in a KZfaq search and this is the video that I clicked on. It's so funny because now I realize how my ebike's lithium battery's charging and discharging works. Hahaha. Thanks. 🔋

Cool, now i know how to upgrade my homemade solar waterfountain. Im 100% sure that you will love my homemade solar waterfountain video. Thanks.

Nice work. Thanks for visual

In order to prevent that scenario you use a transistor. Because transistor is act like switch with very fast switch and this a continous current flow and youll make a oscillation sine wave.

3:08 I believe green line represents the critically damped case as you mention a critical value

Thanks for the important video.

Great video, thank you!

It is a really informative video i hope you make more video like this 💕💕Thanks💕💕

Wowwwww Fabulous explained Great I really enjoyed this explanation

Thank you for your job. Your videos are great addition during my lessons and help my students to learn. :)

As a medical doctor interested in how the brain works, i wonder if there are such circuits are in our brains. Memory itself is storage of energy that fluctuates. Much appreciation if any reference is availed for any proposed circuits in the brains.

Everything is perfect, except the fact that electrons barely move, it is the electric field the one that translate energy rather than electrons. I know this might sound stupid, but this is the reason why the inductor or capacitor formula only depends on the varying voltage of the source and dont take into account the topology of the circuit. So considering a circuit as pipes might work in the short term for simple circuit that dont work at radiofrequency (30KHz-300GHz).

The video screams differential equations all over the place. Love it!

lovely explanation.... marvelous presentation

자기장 코일이에요 영상감사합니다

beautiful animation thanks!

very nice demonstration

Best way to teach physics 👌👌👌👌👌👌✌️

I just studying the LC oscillation in my high school syllabus 😇 Thanks this helps me out to understand this in graphical way

Great explanation.

SIMPLE but AWESOME vid ....🎩👏🏾👏🏾👏🏾!!!!

I wish, I could have studied likely while I had studied electronic in 1983!!! That time, I was taught that in a capacitor, current lead voltage by 90° while in an inductor, voltage lead current by 90°. However, I couldn't understood such phenomenon until today!

Awesome video man! Can you explain how a Crystal Radio works, it's basically the same but with an energy source from the Radio signal.

Great video!

Nice explanation Thanks !

Interestingly interpreted...Thanks

capacitor: here, take my energy :) inductor: no u

thanks for helping me with physics,mid term test is tomorrow

Great animation thank you

This could be cool for a kick drum! It would produce its own envelope, the oscillation fading with the energy dissipated with each cycle.

You are the beings that should be worshipped, not politicians, celebrities or religious deities. It is people like you who helped move humanity forward. I cannot thank you enough.

Excellent animation

Excellent explanation.👌👌👌👌👌

So you finally you had changed your channel name yesterday an watching your channel name changing video and today I got surprised with this but It's good name 👍

beautiful explanation

This is awsomee broo....After watching this I am in love with physics😂♥️

Amazing physics behind it

Second learned alot thank you so much

Awesome video man👌👌

This is fantastic Animation

Well explain..thanks !!

This used to be my favourite concept in electrostatics

I LOVE THIS CHANNEL

I have just started learning about lc circuits for radio, what would the effect of increasing the capacitance have on the frequency of the circuit, would the frequency increase or decrease, thanks

Well understood by best explanation

Both are playing table tennis (Capacitor and Inductor) With Energy as the Ball

Very good explanation

Beautiful stuff

We need to consider the circuit as ideal circuit or there will be some loss of current due to resistance of the wire and dissipation of heat

What if we reduce the resistance in the circuit and use a coil to collect the emf as electric current . Can we get free electricity for longer time ? .

Amazing animation 😍

Wow! So cool!

thank you, helped a lot.

Can I change irregular wave of current to sine wave in this way,? Need expert help.

Excellent but needs a little more. Seeking to help / looking for clarification/confirmation: In an ideal circuit ,leaving out resistance. At maximum current 1:30 the charge across the plates of the capacitor and the inductor is zero. The ElectroMagnetic Field around the inductor is at maximum. It is the collapsing ElectroMagnetic Field which continues to drive the electrons through the inductor onto the far plate of the capacitor creating the negatively charged capacitor. Once the Field has collapsed then the negatively charged capacitor can restart the process again in the opposite direction. If possible, it would be good to overlay the interrelationship between the charge on the capacitor and the ElectroMagnetic Field?

What if we use a current amplifier circuit in between??☺️

Beautiful animation

thank you for your informations.... i have question about metal detector how it works? pls. if u have a video about it

i just read this theory and now after watch this video my concepts are super

Excuse me, is the blue particles electron in the video? why the induced magnetic field direction against the right hand screw rule?

There must be a correction, If I understand that right. The current through the discharging cycle of the capacitor will peak out at 3/4 th of discharge. From there on, it will reduce and becomes zero when the capacitor charge reaches 1/2 of its initial value. At that time, both plates have equal charges and the current flow stops.

Best video Ever i learned a lot

So how this concept connects with the powerfactor improvement in industries?