current entering the +ve terminal of any element means it is acting as a load, and leaving from positive terminal means it is acting as source. I think u have placed the opposite images in both cases.
At 2:23 min as shown in picture capacitor is charging but capacitor polarities are to be interchanged because if any element acts as load them the current enters at positive terminal but in the picture it is opposite I think you can correct it
Hey Gaurav, Can you please make a video on the topic "How a capacitor helps in switch de-bouncing?" Please man, I am literally struggling to understand it.. Also, one more "How RC filters work" Thanks for great videos
Ohm's law states Current is proportional to Voltage , so if Voltage(difference) increases Current will also increase. what you refer is power of the device, i.e. I (current ) x V (voltage) .A device or circuit will always use same power, so either current or voltage changes the other one will change in the other direction.
Ohm's law doesn't work with electrolyte and diods.Energy through the power =v.i constant.here v and I are inversely proportional.This is not as per Ohm's law
when you draw current from the battery while charging a capacitor you r increasing charges on the plates of the capacitor and hence increasing the potential across it as well, meanwhile when the voltage across the plates is increasing the current flowing from the battery reduces as charges on the capacitor plate will repel more incoming charges and moreover as u r increasing the potential across the capacitor so potential difference is decreasing and we know that current flows due to potential difference. when capacitor fully charged than potential difference becomes zero thus current flow becomes zero....
2:17, current should enter positive terminal for charging
current entering the +ve terminal of any element means it is acting as a load, and leaving from positive terminal means it is acting as source. I think u have placed the opposite images in both cases.
Thank you.. you simplify this topic as much as possible. I like your explanation.
At 2:23 min as shown in picture capacitor is charging but capacitor polarities are to be interchanged because if any element acts as load them the current enters at positive terminal but in the picture it is opposite
I think you can correct it
same confusion bro
Same here, it's confusing. Wonder how other people understand ...
So easy to understand in a matter of time. Thanks.
Gurav sir very good explanation.
Hon. You have developed excellent skill of explanation in simple words, Thank you.
Sir please explain about surge suppressor working principles in contactor across the coil
Very nice! You explain very well... Keep it up...!
I have 1.5 V direct current should I step it up first or stabilize it first?
Hey Gaurav,
Can you please make a video on the topic
"How a capacitor helps in switch de-bouncing?"
Please man, I am literally struggling to understand it..
Also, one more
"How RC filters work"
Thanks for great videos
Ohm's law states Current is proportional to Voltage , so if Voltage(difference) increases Current will also increase. what you refer is power of the device, i.e. I (current ) x V (voltage) .A device or circuit will always use same power, so either current or voltage changes the other one will change in the other direction.
Ohm's law doesn't work on inductors or capacitors because the current and voltage are out of phase. Current through a capacitor is i=C dv/dt
Ohm's law doesn't work with electrolyte and diods.Energy through the power =v.i constant.here v and I are inversely proportional.This is not as per Ohm's law
Good explaination bro!
excellent basics
But Ohm's law says current is directly proportional to potential dfference.why do you apply the law for capacitor in a reverse order?
inductors ,capacitors and resistors i knew all this by him..
Hi sir please make video on reasonance and maximum power
The capacitor keeps the voltage of Ac supply constant or voltage across its plate constant
Super bro.. Tnx a lot
Very helpful.
After installation of capacitor, line power watt is same as before installation.
and how the voltage across capacitor will reduce??
Great
@6:28 - kannye west explaining capacitors
interesting
music in last was awesome
i wanted to know
why this happens ?
Thank you Indian uncle.
Super
if capacitor is taking current from the system ,then how current is decreasing during charging ? i didn't get it
the current in the battery is decreasing during charging. not capacitor
when you draw current from the battery while charging a capacitor you r increasing charges on the plates of the capacitor and hence increasing the potential across it as well, meanwhile when the voltage across the plates is increasing the current flowing from the battery reduces as charges on the capacitor plate will repel more incoming charges and moreover as u r increasing the potential across the capacitor so potential difference is decreasing and we know that current flows due to potential difference. when capacitor fully charged than potential difference becomes zero thus current flow becomes zero....
1.36 current take from system...then how current reduce in capacitor...? Current to increase hona tha capacitor Mai!! Please explain this
Current circuit me in decrease kar rahai by taking that current by capacitor
Voltage is getting higher and lower as well..then how can you say it's constant???...
but eventually cap keeps it constant by suddenly changing the current as soon as voltage tries to turn up or down .
Watched the VIDEEEOO
Why you use Ohm law word
I think Capacitor don't follow it
Ohm' s law is for the circuit
Ohm's law cannot be applied to capacitors. Your logic is wrong.
Ohms law is applied to linear devices and if capacitor is linear, ohms law can be applicable in this case
It is said for the rest of the circuit and not for capacitor
How can you apply ohm's law on capacitor,,,lol
he's applying it to the rest of the circuit,not the capacitor,although the capacitor has it's own reactive resistance.
not deep explanation
Can't understand you
sala sab formula k basis pe explain kiya h.....
Terrible pronunciation.