Chapter 21 Capacitance Flashcards Preview

Physics A Level > Chapter 21 Capacitance > Flashcards

Flashcards in Chapter 21 Capacitance Deck (21)
Loading flashcards...
1
Q

What is a capacitor? What is it made from?

A

It is an electrical component that stores charge. Made from two plates separated with an insulator material.

2
Q

What is capacitance? What is the equation?

A

It is the coulombs stored per unit of potential difference

3
Q

What is the unit of capacitance? And how big is one unit?

A

The Farad

1 farad is very large

4
Q

What is the total capacitance for capacitors in parallel?

A

The sum of the capacitance of individual capacitors

5
Q

What is the equation for capacitors in series?

A

1/C1 + 1/C2 + 1/C3 = 1/CT

6
Q

Why do capacitors in series combine like they do?

A

Because the PD over each capacitor is equal to the total PD. Capacitance is proportional to Potential difference.

7
Q

How do capacitors work?

A

Electrons are pushed onto a metal plate. The more join on, the harder they repel each other so adding more electrons requires more energy. This causes energy to be stored

8
Q

How can the energy stored be calculated from a graph of potential difference and charge??

A

It is the area under the graph

9
Q

What is the equation of work for a capacitor?

A

ΔW = V x ΔQ

Work = voltage x change in charge

10
Q

What are the 3 equations for work done on a capacitor??

A
W = 1/2QV
W = 1/2V^2C
W = 1/2xQ^2/C
11
Q

How does the potential difference of a capacitor vary whilst it discharges??

A

Exponentially

12
Q

What is the equation for the discharge of a capacitor involving voltage?

A
V = V0e^-(t/CR)
V = Current voltage
V0 = Starting voltage at time=0
t = time since V0
C = Capacitance
R = Resistance
13
Q

What is the equation for the discharge of a capacitor involving current and charge?

A
I = I0e^-(t/CR)
Q = Q0e^-(t/CR)
14
Q

What is CR in the equation: V = V0e^(t/CR) mean?

A
CR = time constant for the rate of 'decay' for a capacitor
C = Capacitance
R = Resisitance
15
Q

What happens if the time of discharge is the same as the charge constant? what does this show?

A
V = V0e^-(t/CR)
V = V0e^-(CR/CR)
V = V0e^-1
V = 0.37V0
So the time constant is equal time that 63% of the charge has dissipated. Instead of a half life, it is like a two thirds life.
16
Q

What is the equation for discharging a capacitor through a resistor?

A

ΔQ / Δt = -Q / CR

17
Q

What does the graph of potential difference against time for a charging capacitor look like?

A

The mirror image of exponential. The rate of charge at the beginning is large and then the rate gets smaller. Starts steep and then flattens out

18
Q

At any time, V0 = …..

A
...V0 = Vr + Vc
where:
V0 = Voltage at start
Vr = Voltage across the resistor
Vc = Voltage across the capacitor
19
Q

What is the equation for charging a capacitor?

A

Vc = V0(1-e^-(t/CR))

20
Q

What are some uses for capacitors?

A

Motherboards
Backup power
Rectifier circuites

21
Q

How are capacitors used in rectifier circuits?

A

They are used to smooth out the ripple in the DC current produced