Capacitors

Created by

Jana

Cards (32)

What is capacitance (C) defined as?
Charge stored (Q) per unit potential difference (V)
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How is capacitance (C) mathematically expressed?
C = $\frac{Q}{V}$
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What is a capacitor?
An electrical component that stores charge
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What are the components of a parallel plate capacitor?
Two conducting parallel plates with a gap
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What is the role of a dielectric in a capacitor?
It separates the plates and affects capacitance
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What happens when a capacitor is connected to a power source?
Opposite charges build up on the plates
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What is permittivity (ε) in relation to dielectrics?
It measures the ability to store an electric field
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How is relative permittivity (εr) calculated?
Ratio of dielectric permittivity to free space permittivity
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What is the formula for capacitance (C) in terms of area (A), distance (d), and relative permittivity (εr)?
C = $\frac{A \cdot \varepsilon_r \cdot \varepsilon_0}{d}$
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What are polar molecules in a dielectric?
Molecules with positive and negative ends
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How do polar molecules behave in an electric field?
They align themselves with the field
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What effect do polar molecules have on the electric field of a capacitor?
They oppose the field, reducing its strength
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How does capacitance change when the electric field strength decreases?
Capacitance increases as potential difference decreases
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What is the formula for energy (E) stored in a capacitor?
E = $\frac{1}{2} QV$
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What shape does the graph of charge (Q) against potential difference (V) take?
A straight line through the origin
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How can you derive variations of the energy stored formula?
By substituting capacitance into the energy formula
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What is the time constant for a capacitor charging graph?
Approximately 2.5 seconds
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How do you find the time taken for voltage to halve?
Using the formula $T_{1/2} =$ $0.69RC$
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What is the time taken for voltage to halve with a 600 nF capacitor and 100 kΩ resistor?
0.0414 seconds
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How do you find the charge after a certain time for a discharging capacitor?
Using the formula $Q =$ $Q_0 e^{-\frac{t}{RC}}$
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What is the charge after 5 seconds for a 300 μF capacitor with 5 C initial charge?
4.8 C
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How can you calculate the time constant from graphs?
By finding values at 0.37 or 0.63 of initial value
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What is the time constant (RC) in relation to capacitor discharge?
Time taken to discharge to 0.37 of initial value
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What happens to current, charge, and potential difference during capacitor discharge?
They all fall exponentially
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What is the formula for current during capacitor discharge?
I = $I_0 e^{-\frac{t}{RC}}$
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What is the formula for potential difference during capacitor discharge?
V = $V_0 e^{-\frac{t}{RC}}$
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What is the formula for charge during capacitor discharge?
Q = $Q_0 e^{-\frac{t}{RC}}$
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What is the product of resistance and capacitance (RC) known as?
The time constant
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What does the time constant indicate in capacitor charging and discharging?
Time taken to reach specific fractions of initial value
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What are the steps to charge a capacitor in a circuit?
Connect to a power supply and resistor
Measure potential difference and current
Plot graphs of voltage and current against time
Calculate charge using $Q =$ $I \times t$
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What are the steps to discharge a capacitor through a resistor?
Connect to a closed circuit with a resistor
Measure voltage and current
Plot graphs of voltage, current, and charge against time
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What are the key characteristics of capacitor charging and discharging graphs?
Exponential curves for charge, voltage, and current
Current decreases as charge builds up
Voltage increases until it reaches maximum
Charge decreases exponentially during discharge
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