Questions - Power Calculations

Question file 7

STUDY NOTES QUESTIONS WITH ANSWERS

A transmitter power amplifier requires 30 mA at 300 volt. The DC input power is:
1. 300 watt
2. 9000 watt
3. 9 watt
4. 6 watt
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The DC input power of a transmitter operating at 12 volt and drawing 500 milliamp would be:
1. 6 watt
2. 12 watt
3. 20 watt
4. 500 watt
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When two 500 ohm 1 watt resistors are connected in series, the maximum total power that can be dissipated by both resistors is:
1. 4 watt
2. 2 watt
3. 1 watt
4. 1/2 watt
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When two 1000 ohm 5 watt resistors are connected in parallel, they can dissipate a maximum total power of:
1. 40 watt
2. 20 watt
3. 10 watt
4. 5 watt
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The current in a 100 kilohm resistor is 10 mA. The power dissipated is:
1. 1 watt
2. 10 watt
3. 100 watt
4. 10,000 watt
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A current of 500 milliamp passes through a 1000 ohm resistance. The power dissipated is:
1. 0.25 watt
2. 2.5 watt
3. 25 watt
4. 250 watt
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A 20 ohm resistor carries a current of 0.25 ampere. The power dissipated is:
1. 1.25 watt
2. 5 watt
3. 2.50 watt
4. 10 watt
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If 200 volt is applied to a 2000 ohm resistor, the resistor will dissipate:
1. 20 watt
2. 30 watt
3. 10 watt
4. 40 watt
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The power delivered to an antenna is 500 watt. The effective antenna resistance is 20 ohm. The antenna current is:
1. 25 amp
2. 2.5 amp
3. 10 amp
4. 5 amp
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The unit for power is the:
1. ohm
2. watt
3. ampere
4. volt
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The following two quantities should be multiplied together to find power:
1. resistance and capacitance
2. voltage and current
3. voltage and inductance
4. inductance and capacitance
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The following two electrical units multiplied together give the unit "watt":
1. volt and ampere
2. volt and farad
3. farad and henry
4. ampere and henry
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The power dissipation of a resistor carrying a current of 10 mA with 10 volt across it is:
1. 0.01 watt
2. 0.1 watt
3. 1 watt
4. 10 watt
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If two 10 ohm resistors are connected in series with a 10 volt battery, the battery load is:
1. 5 watt
2. 10 watt
3. 20 watt
4. 100 watt
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Each of 9 resistors in a circuit is dissipating 4 watt. If the circuit operates from a 12 volt supply, the total current flowing in the circuit is:
1. 48 ampere
2. 36 ampere
3. 9 ampere
4. 3 ampere
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Three 18 ohm resistors are connected in parallel across a 12 volt supply. The total power dissipation of the resistor load is:
1. 3 watt
2. 18 watt
3. 24 watt
4. 36 watt
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A resistor of 10 kilohm carries a current of 20 mA. The power dissipated in the resistor is:
1. 2 watt
2. 4 watt
3. 20 watt
4. 40 watt
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A resistor in a circuit becomes very hot and starts to burn. This is because the resistor is dissipating too much:
1. current
2. voltage
3. resistance
4. power
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A current of 10 ampere rms at a frequency of 50 Hz flows through a 100 ohm resistor. The power dissipated is:
1. 500 watt
2. 707 watt
3. 10,000 watt
4. 50,000 watt
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The voltage applied to two resistors in series is doubled. The total power dissipated will:
1. increase by four times
2. decrease to half
3. double
4. not change
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