The total impedance of a parallel RLC circuit:

Electronic Principles
The total impedance of a parallel RLC circuit:

always decreases as the applied frequency increases

is equal to the sum of the values of resistance, inductive reactance and capacitive reactance

always increases as the applied frequency increases

None of these

is maximum at the resonant frequency

always decreases as the applied frequency increases

is equal to the sum of the values of resistance, inductive reactance and capacitive reactance

always increases as the applied frequency increases

None of these

is maximum at the resonant frequency

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Electronic Principles
1 Microfarad is the same as:

1 millionth of a picofarad

1 million farads

1000 millifarads

1 million picofarads

None of these

1 millionth of a picofarad

1 million farads

1000 millifarads

1 million picofarads

None of these

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Electronic Principles
The valence electron of a copper atom experiences what kind of attraction toward the nucleus?

Neutral

None of these

Weak

Impossible to say

Strong

Neutral

None of these

Weak

Impossible to say

Strong

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Electronic Principles
What causes the depletion layer?

None of these

Recombination

Doping

Ions

Barrier potential

None of these

Recombination

Doping

Ions

Barrier potential

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Electronic Principles
Suppose the zener diode has a breakdown voltage of 10 V and zener resistance of 8.5 W, what is the additional voltage when the current is 20 mA?

18.8 V

None of these

0.17 V

20 V

10.17 V

18.8 V

None of these

0.17 V

20 V

10.17 V

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Electronic Principles
Which one of the following statements best applies to a parallel RLC circuit?

The sum of the current is always less than the applied current

The current waveform for each component always has the same amplitude and phase as the applied current

The voltage waveform for each component always has the same amplitude and phase as the applied voltage

All of these

None of these

The sum of the current is always less than the applied current

The current waveform for each component always has the same amplitude and phase as the applied current

The voltage waveform for each component always has the same amplitude and phase as the applied voltage

All of these

None of these

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Electronic Principles

Electronic Principles The total impedance of a parallel RLC circuit:

Electronic Principles 1 Microfarad is the same as:

Electronic Principles The valence electron of a copper atom experiences what kind of attraction toward the nucleus?

Electronic Principles What causes the depletion layer?

Electronic Principles Suppose the zener diode has a breakdown voltage of 10 V and zener resistance of 8.5 W, what is the additional voltage when the current is 20 mA?

Electronic Principles Which one of the following statements best applies to a parallel RLC circuit?

Electronic Principles
The total impedance of a parallel RLC circuit:

Electronic Principles
1 Microfarad is the same as:

Electronic Principles
The valence electron of a copper atom experiences what kind of attraction toward the nucleus?

Electronic Principles
What causes the depletion layer?

Electronic Principles
Suppose the zener diode has a breakdown voltage of 10 V and zener resistance of 8.5 W, what is the additional voltage when the current is 20 mA?

Electronic Principles
Which one of the following statements best applies to a parallel RLC circuit?