Unit 4.1 Capacitance Flashcards
What is a capacitor?
(3-way)
- An electric device designed to
- store electrical charge
- and hence electrical energy
What does a capacitor consist of?
(4-way)
- 2 conducting metal plates
- parallel to each other
- separated by an insulating material:
- “dielectric”
List 5 different uses of capacitors in a circuit?
(Pick and match type sh)
- Local energy storage
- Voltage spike suppression
- Timing circuits
- Signal filtering
- Nuclear fusion research (high energy laser)
How do u draw how a capacitor works?
(Get whiteboard)
(Booklet sorry)
Once again….
- 2 cells
- the capacitor
- electrons
- Positive and negative sides
Explain how a capacitor becomes charged when a battery is placed across it? PT. 1
(4-way)
- Electrons from capacitor attracted to positive terminal of the battery
- Leaves a positively charged plate on capacitor,
- attracts electrons from negative terminal of the battery
- Electrons stored on capacitor plate
Explain how a capacitor becomes charged when a battery is placed across it? PT. 2
(3-way)
- One plate = positively charged, other = negatively charged
- Charge = equal
- Once voltage across capacitor = battery, charging stops
What is charge (Q) measured in?
Coulombs
(C)
Do u know the circuit symbol for a capacitor?
Imagine paying to add pictures.
Define capacitance
(2-way)
- The charge per unit potential difference
- across the 2 plates
What is the formula for a capacitor?
(In data booklet)
C = Q/V
Formula for a capacitor expressed in words?
Capacitance = charge on either plate/pd between plates
Define C
(Capacitor formula)
Capacitance
(F aka Farad)
Define Q
(Capacitor formula)
Charge
(C)
Define V
(Capacitor formula)
Voltage
(V)
1 Farad = ?
1 coulomb per volt
1F = ?
1CV-1
How would u calculate t on a charged plate?
Q = It
How would u find the charge stored on each conducting plate of the capacitor
(3-way)
- Q = CV
- They’re only positive & negative sides
- therefore same answers but…
Which capacitor will have greater capacitance in terms of distance between plates?
How come?
(3 things)
- Smaller distance
- Stronger field between plates
- Stronger interaction between the charges
Distance and Capacitance relationship?
They are inversely proportional
(C ∝ 1/d)
Which capacitor will have greater capacitance in terms of area of plates?
How come?
(1 + 2-way)
- Bigger area
- More capacity
- … to store electric charge
Area and Capacitance relationship?
They are directly proportional
(C ∝ A)
What’s the equation for capacitance?
(In data booklet)
C = ε0A/d
Define C
(Capacitance equation)
Capacitance
(F)
Define A
(Capacitance equation)
Area of plates
(m2)
Define d
(Capacitance equation)
Distance between plates
(m)
Define ε0
(Capacitance equation)
(A constant)
Permittivity of free space
(8.85 x 10-12 Fm-1)
What is a dielectric?
(2-(1thing)-way)
- A material used in-between the 2 plates
- within capacitor
- That has effects on the value capacitance
How does a dielectric effect the value capacitance?
(4 things)
- Has dipolar effects inside
- If polarised, increases capacitance
- Unpolarised = no effect
- Polarises due to pd across it
How is a uniform electric field obtained with a capacitor in a circuit?
(3 things)
- Between the 2 parallel metal plates w/
- distance apart (d)
- & has a pd (v)
Describe field lines
(3 things + () <- literally)
- Parallel to each other
- At right angles to the plate
- Directed from positive to negative plate
- (Direction a positive test charge would move)
How do u increase the electric field strength (E)?
(2 ways)
- Increase the pd (V)
- Decrease plate separation (d)
Electric field strength equation?
(In data booklet)
E = v/d
Define E
(Electric field strength equation)
Electric field strength….
(Nc-1)
Define v
(Electric field strength equation)
Voltage, potential difference
(V or Jc-1)
Define d
(Electric field strength equation)
Plate separation
(m)
Tip for finding out the electric field strength?
(2-way)
- As separation always very small…
- E will always be the bigger answer
How is energy being stored in a capacitor?
(3 things)
- When charging the capacitor,
- work is being done
- assembling the charge on each plate
How is the energy stored in a capacitor equation formed?
(4 steps)
- Voltage against charge
- Straight line
- Area under = energy stored
- J = ½ QV
Therefore, energy stored in capacitor equation?
(in data booklet)
J = ½ QV
What are the 2 alternate formulae to use to find energy stored in capacitor?
- J = ½ CV2
- J = ½ Q2/C
(Simple)
How do u find total capacitance in series?
- Same to finding resistance in parallel
- 1/ CT = 1/C1 + 1/C2 + 1/C3
(Simple)
How do u find total capacitance in parallel?
- Same to finding resistance in series
- CT = C1 + C2 + C3
What’s another way of saying the total capacitance?
The effective capacitance
How to find voltage in capacitor in series?
(Use data booklet)
Charge/Capacitance = Voltage
How to find voltage in capacitor in parallel?
(Use data booklet)
Charge/Total capacitance = Voltage
How to find charge in capacitors in series?
(3 steps)
- Find total capacitance
- Q = VC
- Charge = same
How to find charge in capacitors in parallel?
(We partly don’t know yet but…)
- Probably use the formula
What does it mean for a capacitor to discharge?
(2 things)
- Provide electrons for the circuit
- Like a battery
What 3 factors determine how long it takes a capacitor to fully discharge?
- Capacitance (C)
- Voltage (V)
- Resistance (R)
How is C and V a factor of how long a capacitor takes to discharge?
(2-way)
- Determines how much charge,
- is stored Qo
How is R a factor of how long a capacitor takes to discharge?
(2-way)
- Determines the size of current
- that flows to discharge the capacitor
What type of decrease would the graph show on how the charge on the plates changes with time?
Exponential decay
How would u define exponential decay for the graph showing “charge on the plates changes with time”?
(2-time)
- The percentage decrease,
- is constant per unit time
What’s the general formula for exponential decay?
(In data booklet)
A = Aoe-λx
What effects the rate of decrease of the exponential decay formula?
(2-wayway)
- Decay constant
- aka λ
What are the 3 measurements that can be subbed in exponential decreases for capacitor discharge?
- Charge
- Current
- Voltage
What’s the exponential decrease formula for Q of capacitor discharge?
(In data booklet)
Q = Qoe-t/CR
How do u find the exponential decrease formula for I and V?
(2 things)
- Just swap the Q
- Don’t forget -t/CR
Formula for time constant (CR)?
(In data booklet)
Q = Qoe-t/CR
Define Q
(Time constant formula)
Charge at any time t
(C aka coulombs)
Define Qo
(Time constant formula)
Initial charge
(C aka coulombs)
Define t
(Time constant formula)
Any time after discharging has begun
(s aka seconds)
Define C
(Time constant formula)
Capacitance of capacitor
(F aka farads)
Define R
(Time constant formula)
Resistance of load
(Ohms)
What’s the difference if CR is small?
(2 features)
- Q quickly decays
- Steeper curve on graph
What’s the difference if CR is large?
(2 features)
- Q slowly decays
- Less steep curve on graph
How to show CR (time constant) must have units of seconds?
(4 by 4 steps)
- FxR
- C = Q/V & R = V/I
- It/v x V/I
- = t
Definition of time constant?
(3-way although cut 1 way…)
- Time constant, for a discharging capacitor,
- is time taken for charge/current/voltage
- to decrease to 37% of og val.
How do u find the “time constant” from the CR formula?
(Wow… <- clue right there)
- Take logs.
- Use the whiteboard
- That one chemistry lesson
What are the 2 ways to obtain a value for the capacitance of the capacitor with graphs?
- t = RC for normal graph @ 37% (y axis)
- In v graph and do y = mx + c
The clarification is lost D: ^^
or is it?
Lesson learned?
Ego
What’s an opposite for a capacitor discharging?
…. the capacitor charging
What’s the difference for capacitor charging?
(3 things)
- Only charge & voltage increases
- No current + no decrease
- Different formula
Equation for capacitor charging?
(Not in data booklet)
Q = Qo(1 - e-t/CR))
How can u tell on the graph that it’s capacitor charging?
The opposite of capacitor discharging:
- Goes up insteada down
Probably not the best….. once again…. however.
I’d probably spam ppq, surely it can make things more clarifying?
