A 24-volt source is used to supply 48 watts to a parallel circuit consisting of two resistors of equal value. What is the resistance of each resistor?

Unlock all questions

This demo includes only 20 questions. Upgrade to access hundreds of questions, flashcards, exam simulations, and disable ads.

Full question bankExam simulationsFlashcards

From $9.99Unlock all

Prepare for the Basic Electricity Exam. Study with interactive questions, flashcards, and explanations, enhancing your understanding of electricity fundamentals. Get ready for your achievement!

Multiple Choice

A 24-volt source is used to supply 48 watts to a parallel circuit consisting of two resistors of equal value. What is the resistance of each resistor?

In a parallel circuit, the full source voltage appears across every branch, and with two identical resistors, each branch dissipates the same amount of power. The total power drawn from the source is the sum of the powers in both branches, so each resistor shares half of the total power.

Use P = V^2 / R for one resistor. The total power is 48 W, so each resistor uses half of that, but since both see the same voltage, you can set up 48 = 2 × (24^2 / R). Solving gives R = (2 × 576) / 48 = 24 ohms for each resistor.

You can also check by looking at equivalent resistance: two equal resistors in parallel have R_eq = R / 2. The source power is P = V^2 / R_eq, so 48 = 24^2 / (R/2) leads to R/2 = 12 ohms, hence R = 24 ohms.

A 24-volt source is used to supply 48 watts to a parallel circuit consisting of two resistors of equal value. What is the resistance of each resistor?

Prepare for the Basic Electricity Exam. Study with interactive questions, flashcards, and explanations, enhancing your understanding of electricity fundamentals. Get ready for your achievement!

A 24-volt source is used to supply 48 watts to a parallel circuit consisting of two resistors of equal value. What is the resistance of each resistor?

Get the latest from Examzify