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?

None of these

1590 Ohm

less than 1 Ohm

690 Ohm

312 Ohm

None of these

1590 Ohm

less than 1 Ohm

690 Ohm

312 Ohm

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Electronic Principles
The core of an electromagnet is said to be in saturation when:

changing the polarity of the current in the coil changes the polarity of the magnetic field around the core

the core is permitted to move freely within the coil

frequent changes in the direction of current through the coil causes heating effects in the core material

None of these

an increase in current through the coil causes no further increase in the mmf

changing the polarity of the current in the coil changes the polarity of the magnetic field around the core

the core is permitted to move freely within the coil

frequent changes in the direction of current through the coil causes heating effects in the core material

None of these

an increase in current through the coil causes no further increase in the mmf

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Electronic Principles
A transistor has how many doped regions?

1

None of these

4

3

2

1

None of these

4

3

2

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Electronic Principles
What is the inductive reactance of a 2-H coil operating at 60 Hz?

60 Ohm

120 Ohm

754 Ohm

None of these

30 Ohm

60 Ohm

120 Ohm

754 Ohm

None of these

30 Ohm

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

None of these

The total current in a series circuit is equal to the sum of the currents flowing through the individual components in the circuit

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

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

The same current flows through every part of a series circuit

None of these

The total current in a series circuit is equal to the sum of the currents flowing through the individual components in the circuit

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

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

The same current flows through every part of a series circuit

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Electronic Principles
The value of a capacitor can be made larger by:

increasing the frequency of the applied voltage

increasing the area of the plates

decreasing the area of the plates

increasing the voltage applied to the plates

None of these

increasing the frequency of the applied voltage

increasing the area of the plates

decreasing the area of the plates

increasing the voltage applied to the plates

None of these

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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 The core of an electromagnet is said to be in saturation when:

Electronic Principles A transistor has how many doped regions?

Electronic Principles What is the inductive reactance of a 2-H coil operating at 60 Hz?

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

Electronic Principles The value of a capacitor can be made larger by:

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

Electronic Principles
The core of an electromagnet is said to be in saturation when:

Electronic Principles
A transistor has how many doped regions?

Electronic Principles
What is the inductive reactance of a 2-H coil operating at 60 Hz?

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

Electronic Principles
The value of a capacitor can be made larger by: