Power of electric current is given by P = V I.

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Prepare for the Abeka Science Matter and Energy Test 7. Utilize flashcards and multiple choice questions with detailed explanations to boost your comprehension and succeed in your exam!

Multiple Choice

Power of electric current is given by P = V I.

Explanation:
Power is the rate at which energy is transferred in a circuit. This rate comes from the work done on charges as they move through a component, which depends on how much voltage pushes the charges (voltage) and how many charges are moving each second (current). Multiplying these gives the power: P = V × I, with the result in watts. You can see other equal forms if you use Ohm’s law, V = IR. Substituting into P = VI gives P = I^2R, and substituting V = IR into P = VI also gives P = V^2 / R. These are just different ways to express the same power for a resistor or any element where V, I, and R are related by Ohm’s law. The expression I × R is voltage, not power, so it does not represent power itself. Example: a 5 V potential across a component with a 2 A current yields P = 5 × 2 = 10 watts.

Power is the rate at which energy is transferred in a circuit. This rate comes from the work done on charges as they move through a component, which depends on how much voltage pushes the charges (voltage) and how many charges are moving each second (current). Multiplying these gives the power: P = V × I, with the result in watts.

You can see other equal forms if you use Ohm’s law, V = IR. Substituting into P = VI gives P = I^2R, and substituting V = IR into P = VI also gives P = V^2 / R. These are just different ways to express the same power for a resistor or any element where V, I, and R are related by Ohm’s law.

The expression I × R is voltage, not power, so it does not represent power itself.

Example: a 5 V potential across a component with a 2 A current yields P = 5 × 2 = 10 watts.

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