If three resistors of 20, 60, and 120 ohms are connected in parallel with a current flow of 60 A, what will the applied voltage be?

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Prepare for the TSSA Refrigeration Class 4A Certificate Exam with comprehensive quizzes and detailed study guides. Master multiple choice questions with hints and explanations to ensure exam readiness.

To determine the applied voltage in a parallel resistor circuit, you first need to calculate the equivalent resistance of the three resistors. In a parallel circuit, the formula for total or equivalent resistance (R_eq) is given by:

1/R_eq = 1/R1 + 1/R2 + 1/R3

For the resistors with values of 20 ohms, 60 ohms, and 120 ohms, this calculation would look like:

1/R_eq = 1/20 + 1/60 + 1/120

Finding a common denominator (which is 120 in this case), we can rewrite each fraction:

1/20 = 6/120,

1/60 = 2/120,

1/120 = 1/120.

Now we can sum these values:

1/R_eq = 6/120 + 2/120 + 1/120 = 9/120.

This simplifies to:

R_eq = 120/9 = 13.33 ohms.

Next, we use Ohm's Law to find the voltage (V) across the equivalent resistance with the given total current (I = 60 A). Ohm's Law states:

V = I *

If three resistors of 20, 60, and 120 ohms are connected in parallel with a current flow of 60 A, what will the applied voltage be?

Prepare for the TSSA Refrigeration Class 4A Certificate Exam with comprehensive quizzes and detailed study guides. Master multiple choice questions with hints and explanations to ensure exam readiness.

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