What is the capacitive reactance of a 0.1 micro F capacitor that is operating at 1000 Hz?

Electronic Principles
What is the capacitive reactance of a 0.1 micro F capacitor that is operating at 1000 Hz?

690 Ohm

less than 1 Ohm

None of these

1590 Ohm

312 Ohm

690 Ohm

less than 1 Ohm

None of these

1590 Ohm

312 Ohm

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Electronic Principles
What is the primary difference between primary and secondary cell batteries?

Secondary-cell batteries can be recharged and used many times, whereas primary-cell batteries cannot be properly recharged

Primary-cell batteries must be recharged at a much slower rate that secondary-cell batteries

Primary-cell batteries can be recharged and used many times, whereas secondary-cell batteries cannot be properly recharged

Primary-cell batteries use chemical cells, whereas secondary-cell batteries use an alternative energy source, such as thermal or magnetic energy, to supplement their outputs

None of these

Secondary-cell batteries can be recharged and used many times, whereas primary-cell batteries cannot be properly recharged

Primary-cell batteries must be recharged at a much slower rate that secondary-cell batteries

Primary-cell batteries can be recharged and used many times, whereas secondary-cell batteries cannot be properly recharged

Primary-cell batteries use chemical cells, whereas secondary-cell batteries use an alternative energy source, such as thermal or magnetic energy, to supplement their outputs

None of these

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Electronic Principles
The rms value of a sine waveform is:

None of these

the time required to complete one full cycle

the number of cycles completed in one second

equal to 1.41 times the peak amplitude

equal to 0.707 times the peak amplitude

None of these

the time required to complete one full cycle

the number of cycles completed in one second

equal to 1.41 times the peak amplitude

equal to 0.707 times the peak amplitude

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Electronic Principles
An ideal voltage source has

Infinite internal resistance

None of these

Zero internal resistance

A load-dependent current

A load dependent voltage

Infinite internal resistance

None of these

Zero internal resistance

A load-dependent current

A load dependent voltage

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Electronic Principles
A device that converts light energy to electrical energy is called a:

thermocouple

photodiode

solar cell

None of these

photo transistor

thermocouple

photodiode

solar cell

None of these

photo transistor

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Electronic Principles
What is a free electron?

An electron that has twice the amount of charge of a normal electron

An electron that has been freed from its parent atom

None of these

An electron that has no electrical charge

An electron that costs nothing

An electron that has twice the amount of charge of a normal electron

An electron that has been freed from its parent atom

None of these

An electron that has no electrical charge

An electron that costs nothing

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Electronic Principles

Electronic Principles What is the capacitive reactance of a 0.1 micro F capacitor that is operating at 1000 Hz?

Electronic Principles What is the primary difference between primary and secondary cell batteries?

Electronic Principles The rms value of a sine waveform is:

Electronic Principles An ideal voltage source has

Electronic Principles A device that converts light energy to electrical energy is called a:

Electronic Principles What is a free electron?

Electronic Principles
What is the capacitive reactance of a 0.1 micro F capacitor that is operating at 1000 Hz?

Electronic Principles
What is the primary difference between primary and secondary cell batteries?

Electronic Principles
The rms value of a sine waveform is:

Electronic Principles
An ideal voltage source has

Electronic Principles
A device that converts light energy to electrical energy is called a:

Electronic Principles
What is a free electron?