What is the power dissipation of a resistance that has 24 V dropped across it and 0.25 A flowing through it?

Electronic Principles
What is the power dissipation of a resistance that has 24 V dropped across it and 0.25 A flowing through it?

3 W

122 W

64 W

6 W

None of these

3 W

122 W

64 W

6 W

None of these

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Electronic Principles
Assuming 100% efficiency, what is the power being consumed at the secondary winding of the transformer described in question 91?

None of these

20 W

100 W

200 W

1000 W

None of these

20 W

100 W

200 W

1000 W

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Electronic Principles
The equivalent of 1 megohms is:

None of these

1 k ohm

one-millionth of an ohm

one million ohms

100,000 ohm

None of these

1 k ohm

one-millionth of an ohm

one million ohms

100,000 ohm

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Electronic Principles
As the temperature increases, the current gain

decreases

contant

None of these

increases

can be any of the above

decreases

contant

None of these

increases

can be any of the above

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

parallel RL circuit

parallel RC circuit

purely resistive circuit

None of these

parallel RLC circuit operated above its resonant frequency

parallel RL circuit

parallel RC circuit

purely resistive circuit

None of these

parallel RLC circuit operated above its resonant frequency

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Electronic Principles
What is the difference between the kinds of charges for an electron and a proton?

An electron has a negative charge and a proton has a positive charge

None of these

An electron has a positive charge and a proton has no charge

An electron has a positive charge and a proton has a negative charge

An electron has a negative charge and a proton has no charge

An electron has a negative charge and a proton has a positive charge

None of these

An electron has a positive charge and a proton has no charge

An electron has a positive charge and a proton has a negative charge

An electron has a negative charge and a proton has no charge

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Electronic Principles

Electronic Principles What is the power dissipation of a resistance that has 24 V dropped across it and 0.25 A flowing through it?

Electronic Principles Assuming 100% efficiency, what is the power being consumed at the secondary winding of the transformer described in question 91?

Electronic Principles The equivalent of 1 megohms is:

Electronic Principles As the temperature increases, the current gain

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

Electronic Principles What is the difference between the kinds of charges for an electron and a proton?

Electronic Principles
What is the power dissipation of a resistance that has 24 V dropped across it and 0.25 A flowing through it?

Electronic Principles
Assuming 100% efficiency, what is the power being consumed at the secondary winding of the transformer described in question 91?

Electronic Principles
The equivalent of 1 megohms is:

Electronic Principles
As the temperature increases, the current gain

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

Electronic Principles
What is the difference between the kinds of charges for an electron and a proton?