The total capacitive reactance of a parallel capacitor circuit is:

Electronic Principles
The total capacitive reactance of a parallel capacitor circuit is:

equal to the source voltage divided by total current

equal to the sum of the individual capacitance values

less than the capacitance value of the smallest capacitor

None of these

equal to the sum of the individual capacitive-reactance values

equal to the source voltage divided by total current

equal to the sum of the individual capacitance values

less than the capacitance value of the smallest capacitor

None of these

equal to the sum of the individual capacitive-reactance values

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Electronic Principles
The current gain of a transistor is defined as the ratio of the collector current to the

base current

collector current

supply current

emitter current

None of these

base current

collector current

supply current

emitter current

None of these

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Electronic Principles
The rms value of a sine waveform is:

None of these

equal to 1.41 times the peak amplitude

equal to 0.707 times the peak amplitude

the number of cycles completed in one second

the time required to complete one full cycle

None of these

equal to 1.41 times the peak amplitude

equal to 0.707 times the peak amplitude

the number of cycles completed in one second

the time required to complete one full cycle

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Electronic Principles
If the current gain is 200 and the collector current is 100 mA, the base current is

None of these

200 A

0.083333333333333

2 mA

0.5 mA

None of these

200 A

0.083333333333333

2 mA

0.5 mA

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Electronic Principles
Voltage is

The smallest electrically charged particle

The flow of charged particles through a material

The number of free electrons in an atom

Trie force that causes electrons to flow

None of these

The smallest electrically charged particle

The flow of charged particles through a material

The number of free electrons in an atom

Trie force that causes electrons to flow

None of these

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Electronic Principles
A certain electromagnet has 1000 turns of wire. How much current must flow through the coil in order to generate an mmf of 100 ampere-turns?

0.41666666666667

0.1 A

None of these

1000 A

100 A

0.41666666666667

0.1 A

None of these

1000 A

100 A

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Electronic Principles

Electronic Principles The total capacitive reactance of a parallel capacitor circuit is:

Electronic Principles The current gain of a transistor is defined as the ratio of the collector current to the

Electronic Principles The rms value of a sine waveform is:

Electronic Principles If the current gain is 200 and the collector current is 100 mA, the base current is

Electronic Principles Voltage is

Electronic Principles A certain electromagnet has 1000 turns of wire. How much current must flow through the coil in order to generate an mmf of 100 ampere-turns?

Electronic Principles
The total capacitive reactance of a parallel capacitor circuit is:

Electronic Principles
The current gain of a transistor is defined as the ratio of the collector current to the

Electronic Principles
The rms value of a sine waveform is:

Electronic Principles
If the current gain is 200 and the collector current is 100 mA, the base current is

Electronic Principles
Voltage is

Electronic Principles
A certain electromagnet has 1000 turns of wire. How much current must flow through the coil in order to generate an mmf of 100 ampere-turns?