Module 6 - 6.1.3 Charging and Discharging Capacitors Flashcards
1
Q
The rate at which charge moves onto the plates is
A
not linear
2
Q
Charging: current is max at (3)
A
- instant capacitor starts to charge
- gradually decreases until it reaches zero
- at this point capacitor is fully charged
3
Q
Charging: Equations (3)
A
Q=Qf(1-e^(-t/CR))
V=Vf(1-e^(-t/CR))
I=I0(e^(-t/CR))
4
Q
Discharging: current is max at (3)
A
- instant capacitor starts to discharge
- gradually decreases until it reaches zero
- at this point capacitor is fully discharged
5
Q
Discharging: Equations (3)
A
Q=Q0(e^(-t/CR))
V=V0(e^(-t/CR))
I=I0(e^(-t/CR))
6
Q
The time constant of a capacitor circuit is the
A
time taken for the charge on the capacitor to fall to 1/e of its original maximum value
7
Q
𝜀 =
A
𝜀0 x 𝜀r
8
Q
It is - for charge to get onto the plates at first but
A
easier
becomes more difficult as the charge on the plates increases
9
Q
The greater the size of the resistance in the circuit (2)
A
- The longer it will take for a capacitor to become fully charged/discharged
- Does not affect the final values of the pd, charge and energy stored
