walters said:
To know where the Discharging Paths and to understand more about and what discharging paths and what and about dischanging is
Can you please explain more about what dischanging is about?
dischanging or
discharging what more do you want to know it has been covered.
You take a capacitor an connect it across a battery and it will "collect" charge
(think of a cap like a bathtub and the battery like a watertank)
Now the cap will charge up quickly, with the current/charge flow only limited to the ESR, but it will be exponetial shaped (that is gospel)
Now if you add an external resistor in series with the cap and the battery, that resistor will limit the flow of charge onto the capacitor (treat the resistor like a valve/tap in the bath). but it will be exponetial shaped, it iwll just take longer.
All a capacitor is , is a couple of plates (isolated) and bacisally static charge builds up on the plates.
A discharge of a cap is basically removing that charge and returning both plates to equailbrium (ie no charge on either plates). That can be done by shorting out the cap and giving the charge on the +ve plate a path to flow to the -VE plate (tha tis a bad discharge since it is fast)
put a load between the +ve of the cap and the -ve of the cap and you can use that stored charge to power things, say put a resistor and a LED across the cap and the LED will light for a finite period of time
I dont get what you are asking,
Discharging path is nothing special, a capacitor is a voltage device and when charged has a voltage across it, charge/current want to flow from high potential to low potential, so if there is a path to the -ve terminal of the cap it will follow that route, its not rocket science