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This quiz contains 12 questions from a mix of 1 subtopics.

Which of the following equations correctly relates the energy stored in a capacitor to its capacitance and voltage?

W = ½CV²

W = CV²

W = CV

W = 2CV²

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A capacitor with a capacitance of 0.02 F is charged to a potential difference of 10 V. How much energy is stored in the capacitor?

2 J

0.2 J

1 J

0.1 J

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Which of the following applications rely on a capacitor's ability to discharge energy quickly?

backup power supplies

smoothing potential difference fluctuations

all of the above

camera flashes

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A capacitor is charged to a voltage of 5 V and stores 0.1 J of energy. What is its capacitance?

0.008 F

0.004 F

0.01 F

0.002 F

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Explain how a capacitor stores energy when connected to a battery.

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3

Describe two practical applications of capacitors and explain how they rely on the properties of capacitors.

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2

A capacitor with a capacitance of 5μF is charged to a potential difference of 12 V. Calculate the energy stored by the capacitor.

3.6\times10^{-4}|360\times10^{-6}|0.00036

J

J

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A capacitor with a capacitance of 5 Farads is charged to a voltage of 10 Volts. Calculate the energy stored in the capacitor.

50 J

250 J

100 J

25 J

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Calculate the charge stored in a capacitor with a capacitance of 0.02 Farads when the voltage across it is 50 Volts.

5 C

1 C

0.5 C

1.5 C

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A capacitor of 0.5 Farads is connected across a 20 Volt supply. What is the energy stored in this capacitor?

10 J

5 J

200 J

100 J

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1

What is the capacitance of a capacitor that stores 2 Joules of energy when connected to a 4 Volt battery?

0.25 F

0.5 F

2 F

1 F

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1

If a capacitor discharges 0.5 Coulombs of charge through a light bulb when connected to a 6 Volt supply, how much energy was stored in the capacitor?

3 J

1.5 J

6 J

2 J

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