Capacitors Flashcards
Define Capacitance
Charge stored per unit Volt [F]
What do the gradient and area under this graph represent?
Gradient → Capacitance
Area → Work done (Energy Stored)
What is wrong with this?
C = capacitance → not the charge!!!
When building a capacitor how do you maximize the capacitance?
- Increase the area of the plates
- Decrease the plate separation
- Place dielectric between plates
What does it mean if the relative permittivity of a dielectric (εr) is 5.0?
The capacitor stores 5x more charge with the dielectric between the plates!
How does adding a dielectric increase the capacitance of a capacitor?
- Dielectric contains polarised molecules
- They align with the field between the plates
- Bigger negative charge attracts more electrons onto negative plate
- Repels more electrons away from positive plate
- V same but Q has increased
What happens if the dielectric is removed?
(Capacitor still connected to battery)
- Polarised molecules removed
- Some electrons leave negative plate
- Attracts more electrons to positive plate
- Q has decreased but V same
- C decreases (C=Q/V)
What happens if the dielectric is removed?
(When the Capacitor is disconnected from battery)
- Polarised molecules removed
- But charge is trapped on plates
- Same Q but with lower C
- V increases (V=Q/C)
How does this capacitor charge?
(When switch 1 is closed)
- Electrons flow from the negative terminal of the battery
- To the connected parallel plate (right plate)
- Electrons are repelled from the opposite plate (left)
- And attracted to the positive terminal of the battery
- Charge across Parallel plates
How does this capacitor discharge?
(When switch 2 is closed)
- Electrons flow from the negative plate (right)
- Through the resistor
- To the other plate (left)
- Decreasing charge difference across plates
