LC Oscillator Tank Circuit

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I had to slow the playback to 0.75 to keep up, but it was worth it. Now I know why capacitors and inductors "oscillate". I'm so grateful for this gentleman's style of teaching ( the electronic blackboard ). If my school teachers taught in this way, I would be an engineer by now. So much would be different. But it's never too late, right? I'm off to watch The Organic Chemistry Tutor's video on "RL Circuits - Inductors and Resistors". Thanks The Organic Chemistry Tutor. Bye everyone.🖐

I am a computer major and I wish we had teachers like you in the electrical courses!

Great video! Thanks for reminding your viewers you teach with holes or Conventional Flow. You explain real well!

You are good at explaining the details, thank you very much.
I would like to share something that's on topic in a practical way.
Years ago I spent $200 on a radio scanner so I could listen to the aircraft frequencies.
Some time after that I had an idea with the LC oscillator.
I payed $4 for a cheap pocket transistor radio.
I opened it up and found the coil of wire near the variable capacitor (the one with the tuning knob attached).
Using a small screwdriver I spread the coil apart a little which shifted the frequency of the oscillator
to a range that included the aircraft frequencies. Much cheaper than $200. LOL

The Best teacher!

Hello Sir, Thank you so much for your excellent teaching method.

Thank you , great video!

Thank’s for sharing!

I love you man...really glad this video exists.'''

Thank you so much for this video,sir

Unless I'm missing something, the feedback mechanism IS the capacitance of the mechanism minus the magnetic load. Great presentation, TOCT. Keep up the good work. Subbed.

Sir am learning to build my own radios and this was really helpful thanks

Thanks for the video.

thank you

Thank you so much

Thank you sir

Thanks!

Thanks 🙏

Nice one

Bro knows every thing 💀

Thanks, you a g

Tqs bro

Beautiful 😍❤️🙏🙏🙏🙏🙏

Thanks for helping everyone who has been studying, so that their grades don't...tank!

The video sound is pretty good, beyond my imagination

The way to understand inductance is right hand curled fingers rule. Step 1) I creates magnetic field curling around thumb.
2) When voltage shut off, magnetic field lines are still curled around thumb, so they push I in same direction. Simple, just like a water wheel.

Can you make a video on the mathematical equations explaining how the resultant current/voltage waveform is a sinusoid in the tank circuit

thanks

So nice sir and when you get time help us with switch mode power supply sir

At 4:39 in diagram 4, it looks like the pluses and minuses on the capacitor and inductor are on opposite sides. Is that consistent with the convention that the voltage in a wire is constant over its length (so long as it's a region not containing a circuit element)?

In 1:16 , did the current increase because of the supporting emf produced by the inductor? Since capacitor will have lesser and lesser energy(decreasing emf(from capacitor)) because of the discharge of charges.

One thing to note is the transfer of this energy back and forth between cap and inductor is almost instant or unnoticeable/travel at speed of light.

It is sine wave for current right. Then the potential difference or voltage on inductor is L*dI/dt where L is indu tance and dI/dt = rate of change of current, then I = sin(wt), dI/dt = wcos(wt). V = Lw*cos(wt). Does that mean voltage and current have 90° phase difference? Likewise for electric field and magnetic field that create electromagnetic field for signals?

Sir you have yet to make a full entire video dedicated to transition metals. If you do make a video could you make it about:
1. Why transition metals are coloured.
2. Ligand-Exchange reaction explaining how ligand react with the transition metal etc
There are a lot more concepts but I can't recall.

Shouldn’t the current reverse direction when the voltage polarity over the inductor flips?

I'm not sure that the inductor stores a charge. The way I understand it is that the as the voltage leads the current across the inductor, at a 90⁰ phase angle, then as the resultant magnetic field collapses, it induces a reverse EMF in the inductor windings. That's why it's called an inductor. Have I got that right?
Thanks for pointing out that you were using conventional current. I find it much easier to use actual current, as it is the negative having a surplus of electrons, being attracted to the positive with a deficit of electrons. Much easier to comprehend.

So why direction of the flow keeps changing in the circuit?

The number of molecules in a mole of any molecular substance number of ntons in one miale of any eleinent is can be biger or small or same all the time

Can we find a transfer function representation for such circuit?

Does the initial charging process of the capacitor use Ac or Dc? and does the current that flows alternatively across the capacitor and inductor infinitely after initial charging of the capacitor Ac or Dc?

How would you add energy, suppose you had a DC power source like a battery, could you feed that energy into the circuit?

Such a voice

If case 4 you have the sign of the voltage different between two points that have nothing between them but a wire. They must have the same voltage

Excelente profesor, voice perfect, paused, details, good. Try to tech people directly from you tube to Universities in specific hours as a TUTOR, just follow the university syllabus chapter by chapter.CONTACT UNIVERSITY FACULTY . Due to pandemics many Professor in universities are extreally lazy. They teaching NOTHING. REQUEST (AT LEAST $50,000). Create a revolutionary university learning program.

why inductor current starts going down after reaching max ? because once inductor is reached to max energy with max current, it starts negatively charging capacitor and due t that its current starts decreasing... this causes capacitor voltage increases and capacitor starts storing energy 0.5 CV2 form... this process repeat itself producing sustained oscillations.

What’s the Power Factor on this kind of circuit?

Will you make a video about how to make that oscillation run forever, I mean until the power supply is disconnected?

Can you explain how tesla's hairpin circuit works?

Hi, very nice video! Could you please provide concrete examples for both the capacitor and the inductor to show the undamped oscillations? I am asking for the values of capacitance and inductance. I would like to charge the capacitor by means of a regular 6 V battery, and I would like to see the oscillating current on one oscilloscope screen. Also, which energy feedback would you recommend having connected to this “Tank” circuit in order to keep the amplitude moderately constant? Thanks for your attention to this!

👍

hey, should not the step 1 and step 4 be the same i mean like they are at the mean position. The positive side and negative side is not the way it is after one oscillation. Why?

A CAPACITOR HOLDS A POTENTIAL DIFFERENCE, NOT AN ENERGY. A LOADED CAPACITOR IS LIKE A BATTERY. My batteries have a potential difference in Volts, not an energy in Joules. A LOADED INDUCTOR IS LIKE A BATTERY TOO. @ 1:22 This is the energy of the ELECTRONS being pushed by the inductor-voltage. Just like V . q = energy.

can diodes solve this damping current

Is the source "Constant Current DC " or "Pulsed DC" (THE SOURCE)

Subscribed but please don't use Comic sans

Hate to tell you but the current flow is from the negative to the positive.

Incomplete

thank you