very good explanation. I really do appreciate your job! Like someone else said before, it's a pity that such good content has so little views (compared to overall TH-cam's crap)
This is the first time i listened to your topics and so far your explanations are great ! Regarding Capacitors, i have read hundreds of textbooks trying to explain how capacitors work and they all pretty much say the same verbiage but nobody explains how these capacitors work and the explanation is easy to understand. You come along with an ingeneius explNation using the Compressor analogy. Using this compressor idea helps explain why the calacitor eventually stops pushing ectrons flow and the voltage becomes the same value of the battery voltage. So you seem to have a gift in explaning weird components so they are easy to understand. Thank you for the clarity ! I hope most young electricity/electronic students get a chance to see your videos because they will learn the basic technology very quickly and not struggle with it, as has been the situation in past generations of ztudents in electronics. Thanks again. Gerard
You make reference to former videos.... In what order should I watch all your playlists? I guess I can just go to Videos, scroll down to the bottom and watch all of them from the bottom up and that's the intended order?
actually I should have said that a tire will only be fully inflated when its volume is completely filled. Can a capacitor be filled when the voltage source is at different voltage levels? Is it just a matter of more or less time?
Very early in explanation, there is an insulator between 2 plates. You drew a line from the negative side of the capacitor and said current was flowing...but how could it flow if there is an insulator between the positive and negative plate ? In the air tank example there is no such negative side of the air tank back to the pump suction.
Hey Bob, if we put a capacitor in DC voltage source with no resistance that means voltage of a capacitor equals voltage of the dc source and does that mean capacitor charge instant and no current flow in the circuit anytime ?
There is always a charge time in real life. Power supplies have output impedance (resistance) and even a battery has a internal resistance. Even the wires and leads connecting the capacitor to the power supply or battery have resistance.
what happens in the circuit at 07:32 if both switches are closed simulatenously? So C charges via the battery but at the same discharges through the bulb?
actually in both close SWs the batt charge Cap and turns on lamp and caps keep charging until gets full and when bat sw is open cap discharges in lamp.in real time we speak about 1uS and caps can remove ripples from our circuit Good Luck
No electronics engineer has any idea what capacity is... You know that? Then tell me what the capacitance of just one plate of this capacitor is ... ;)
it is a shame that this channel did not get much spotlight, many of your videos answer many of my question about electronics.
Sandalwood tree grows unnoticed and big over a period of time
thank you so much for this! your whole channel is really excellent there's not enough organized EE information for people trying to learn on their own
very good explanation. I really do appreciate your job! Like someone else said before, it's a pity that such good content has so little views (compared to overall TH-cam's crap)
Extremely good information,. Keep it up!
This is the first time i listened to your topics and so far your explanations are great !
Regarding Capacitors, i have read hundreds of textbooks trying to explain how capacitors work and they all pretty much say the same verbiage but nobody explains how these capacitors work and the explanation is easy to understand.
You come along with an ingeneius explNation using the Compressor analogy. Using this compressor idea helps explain why the calacitor eventually stops pushing ectrons flow and the voltage becomes the same value of the battery voltage.
So you seem to have a gift in explaning weird components so they are easy to understand.
Thank you for the clarity ! I hope most young electricity/electronic students get a chance to see your videos because they will learn the basic technology very quickly and not struggle with it, as has been the situation in past generations of ztudents in electronics.
Thanks again.
Gerard
One Coulomb of thanks for Sir. Really, really nice explanations .
thank you very much sir... very clear explanation.
excellent video - the series explains many of the insightful details that are often taken for granted
You make reference to former videos.... In what order should I watch all your playlists? I guess I can just go to Videos, scroll down to the bottom and watch all of them from the bottom up and that's the intended order?
great explanation, will a capacitor always charge to its rated voltage or is that dictated by the circuit?
actually I should have said that a tire will only be fully inflated when its volume is completely filled. Can a capacitor be filled when the voltage source is at different voltage levels? Is it just a matter of more or less time?
Very early in explanation, there is an insulator between 2 plates. You drew a line from the negative side of the capacitor and said current was flowing...but how could it flow if there is an insulator between the positive and negative plate ? In the air tank example there is no such negative side of the air tank back to the pump suction.
Hey Bob, if we put a capacitor in DC voltage source with no resistance that means voltage of a capacitor equals voltage of the dc source and does that mean capacitor charge instant and no current flow in the circuit anytime ?
There is always a charge time in real life. Power supplies have output impedance (resistance) and even a battery has a internal resistance. Even the wires and leads connecting the capacitor to the power supply or battery have resistance.
Yeah, got that .Thanks.@@mikesradiorepair
Thank you so much for your videos. Are you an actual teacher in real life?
what happens in the circuit at 07:32 if both switches are closed simulatenously? So C charges via the battery but at the same discharges through the bulb?
actually in both close SWs the batt charge Cap and turns on lamp and caps keep charging until gets full and when bat sw is open cap discharges in lamp.in real time we speak about 1uS and caps can remove ripples from our circuit
Good Luck
As age goes up people cannot remember things. Statement of a supid. Today i realised and will change myself
No electronics engineer has any idea what capacity is...
You know that? Then tell me what the capacitance of just one plate of this capacitor is ... ;)