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?

312 Ohm

None of these

690 Ohm

1590 Ohm

less than 1 Ohm

312 Ohm

None of these

690 Ohm

1590 Ohm

less than 1 Ohm

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Electronic Principles
When operating below its resonant frequency, a parallel RLC circuit has the characteristics of a:

parallel RLC circuit operated above its resonant frequency

purely resistive circuit

None of these

parallel RL circuit

parallel RC circuit

parallel RLC circuit operated above its resonant frequency

purely resistive circuit

None of these

parallel RL circuit

parallel RC circuit

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

piezoelectric devices

None of these

solar cell

chemical cell

thermocouple

piezoelectric devices

None of these

solar cell

chemical cell

thermocouple

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Electronic Principles
A high-pass filter:

increases the level of all frequencies by a significant amount

has no effect on ac signals

passes higher-frequency signals and reduces lower-frequency signals

passes lower-frequency signals and reduces higher-frequency signals

None of these

increases the level of all frequencies by a significant amount

has no effect on ac signals

passes higher-frequency signals and reduces lower-frequency signals

passes lower-frequency signals and reduces higher-frequency signals

None of these

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Electronic Principles
Which one of the following statements is true for current flowing in a parallel circuit?

The amount of current flow through each branch of a parallel circuit can be different, depending on the resistance of each branch part and the amount of voltage applied to it

The total current in a parallel circuit is always less than the smallest amount of current

The total current in a parallel circuit is equal to the total voltage multiplied by the total resistance

None of these

The same current always flows through every part of a parallel circuit

The amount of current flow through each branch of a parallel circuit can be different, depending on the resistance of each branch part and the amount of voltage applied to it

The total current in a parallel circuit is always less than the smallest amount of current

The total current in a parallel circuit is equal to the total voltage multiplied by the total resistance

None of these

The same current always flows through every part of a parallel circuit

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Electronic Principles
Electron current is flowing through a conductor in a direction you might describe as straight into this page. What is the direction of the resulting magnetic field?

Out of this page

Into this page

Clockwise

None of these

Counterclockwise

Out of this page

Into this page

Clockwise

None of these

Counterclockwise

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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 When operating below its resonant frequency, a parallel RLC circuit has the characteristics of a:

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

Electronic Principles A high-pass filter:

Electronic Principles Which one of the following statements is true for current flowing in a parallel circuit?

Electronic Principles Electron current is flowing through a conductor in a direction you might describe as straight into this page. What is the direction of the resulting magnetic field?

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

Electronic Principles
When operating below its resonant frequency, a parallel RLC circuit has the characteristics of a:

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

Electronic Principles
A high-pass filter:

Electronic Principles
Which one of the following statements is true for current flowing in a parallel circuit?

Electronic Principles
Electron current is flowing through a conductor in a direction you might describe as straight into this page. What is the direction of the resulting magnetic field?