Which one of the following phrases most accurately describes a purely inductive circuit?

Electronic Principles
Which one of the following phrases most accurately describes a purely inductive circuit?

Combinations of resistance and inductive reactance provide any opposition to current flow

Inductive reactance provides the only opposition to current flow

The ac voltage lags the current by 90 degree

None of these

Resistances provide the only opposition to current flow

Combinations of resistance and inductive reactance provide any opposition to current flow

Inductive reactance provides the only opposition to current flow

The ac voltage lags the current by 90 degree

None of these

Resistances provide the only opposition to current flow

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Electronic Principles
How many types of flow are there in a semiconductor?

2

3

1

None of these

2

3

1

None of these

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Electronic Principles
If a load resistance is 1 kW, a stiff current source has a resistance of

None of these

At least 10 Ohm

Less than 10 Ohm

Less than 100 k Ohm

More than 100 k Ohm

None of these

At least 10 Ohm

Less than 10 Ohm

Less than 100 k Ohm

More than 100 k Ohm

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Electronic Principles
In a transistor operates at the middle of the load line, an increase in the base resistance will move the Q point

down

off the load line

None of these

up

nowhere

down

off the load line

None of these

up

nowhere

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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

None of these

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

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

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

None of these

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

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

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

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Electronic Principles
Reducing the amount of current through an inductor:

multiplies the value of inductance by four

reduces the value of inductance by one-half

has no effect on the inductance

multiplies the value of inductance by two

None of these

multiplies the value of inductance by four

reduces the value of inductance by one-half

has no effect on the inductance

multiplies the value of inductance by two

None of these

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Electronic Principles

Electronic Principles Which one of the following phrases most accurately describes a purely inductive circuit?

Electronic Principles How many types of flow are there in a semiconductor?

Electronic Principles If a load resistance is 1 kW, a stiff current source has a resistance of

Electronic Principles In a transistor operates at the middle of the load line, an increase in the base resistance will move the Q point

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

Electronic Principles Reducing the amount of current through an inductor:

Electronic Principles
Which one of the following phrases most accurately describes a purely inductive circuit?

Electronic Principles
How many types of flow are there in a semiconductor?

Electronic Principles
If a load resistance is 1 kW, a stiff current source has a resistance of

Electronic Principles
In a transistor operates at the middle of the load line, an increase in the base resistance will move the Q point

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

Electronic Principles
Reducing the amount of current through an inductor: