Question 21.3: A Purely Inductive AC Circuit Goal Perform basic AC circuit ...

Enhanced College Physics
Essentials of College Physics

A Purely Inductive AC Circuit

Goal Perform basic AC circuit calculations for an inductive circuit.

Problem In a purely inductive AC circuit (see Active Fig. 21.6), L = 25.0 mH and the rms voltage is 1.50 × 10² V. Find the inductive reactance and rms current in the circuit if the frequency is 60.0 Hz.

21.6

The blue check mark means that this solution has been answered and checked by an expert. This guarantees that the final answer is accurate.
Learn more on how we answer questions.

Substitute L and f into Equation 21.8 to get the inductive reactance:

$X_{L} \equiv 2 \pi f L$

$X_{L}=2 \pi f L=2 \pi\left(60.0 s ^{-1}\right)\left(25.0 \times 10^{-3} H \right)=9.42 \Omega$

Solve Equation 21.9 for the rms current and substitute:

$\Delta V_{L, rms }=I_{ rms } X_{L}$

$I_{ rms }=\frac{\Delta V_{L, rms }}{X_{L}}=\frac{1.50 \times 10^{2} V }{9.42 \Omega}=15.9 A$

Remark The analogy with DC circuits is even closer than in the capacitive case, because in the inductive equivalent of Ohm’s law, the voltage across an inductor is proportional to the inductance L, just as the voltage across a resistor is proportional to R in Ohm’s law.

Related Answered Questions

Question: 21.8

A Hot Tin Roof (Solar-Powered Homes) Goal Calculate some basic properties of light and relate them to thermal radiation. Problem Assume that the Sun delivers an average power per unit area of about 1.00 × 10³ W/m² to Earth’s surface. (a) Calculate the total power incident on a flat tin roof 8.00 m ...

Verified Answer:

(a) Calculate the power delivered to the roof. Mul...

Question: 21.9

Clipper Ships of Space Goal Relate the intensity of light to its mechanical effect on matter. Problem Aluminized mylar film is a highly reflective, lightweight material that could be used to make sails for spacecraft driven by the light of the sun. Suppose a sail with area 1.00 km² is orbiting the ...

Verified Answer:

(a) Find the force exerted on the sail. Write Equa...

Question: 21.7

Distributing Power to a City Goal Understand transformers and their role in reducing power loss. Problem A generator at a utility company produces 1.00 × 10² A of current at 4.00 × 10³ V. The voltage is stepped up to 2.40 × 10^5 V by a transformer before being sent on a high-voltage transmission ...

Verified Answer:

(a) Determine the percentage of power lost in the ...

Question: 21.6

A Circuit in Resonance Goal Understand resonance frequency and its relation to inductance, capacitance, and the rms current. Problem Consider a series RLC circuit for which R = 1.50 × 10² Ω, L = 20.0 mH, Vrms = 20.0 V, and f = 796 s^-1. (a) Determine the value of the capacitance for which the rms ...

Verified Answer:

(a) Find the capacitance giving the maximum curren...

Question: 21.5

Average Power in an RLC Series Circuit Goal Understand power in RLC series circuits. Problem Calculate the average power delivered to the series RLC circuit described in Example 21.4. Strategy After finding the rms current and rms voltage with Equations 21.2 and 21.3, substitute into Equation ...

Verified Answer:

First, use Equations 21.2 and 21.3 to calculate th...

Question: 21.4

An RLC Circuit Goal Analyze a series RLC AC circuit and find the phase angle. Problem A series RLC AC circuit has resistance R = 2.50 × 10² , inductance L = 0.600 H, capacitance C = 3.50 μF, frequency f = 60.0 Hz, and maximum voltage ΔVmax = 1.50 × 10² V. Find (a) the impedance, (b) the maximum ...

Verified Answer:

(a) Find the impedance of the circuit. First, calc...

Question: 21.3

A Purely Inductive AC Circuit Goal Perform basic AC circuit calculations for an inductive circuit. Problem In a purely inductive AC circuit (see Active Fig. 21.6), L = 25.0 mH and the rms voltage is 1.50 × 10² V. Find the inductive reactance and rms current in the circuit if the frequency is ...

Verified Answer:

Substitute

L

and

f

i...

Question: 21.2

A Purely Capacitive AC Circuit Goal Perform basic AC circuit calculations for a capacitive circuit. Problem An 8.00-μF capacitor is connected to the terminals of an AC generator with an rms voltage of 1.50 × 10² V and a frequency of 60.0 Hz. Find the capacitive reactance and the rms current in the ...

Verified Answer:

Substitute the values of

f

and [lat...

Question: 21.1

What Is the rms Current? Goal Perform basic AC circuit calculations for a purely resistive circuit. Problem An AC voltage source has an output of Δv = (2.00 × 10² V) sin 2πft. This source is connected to a 1.00 × 10²-Ω resistor as in Figure 21.1. Find the rms voltage and rms current in the resistor ...

Verified Answer:

Obtain the maximum voltage by comparison of the gi...

Question: 21.1

What Is the rms Current? Goal Perform basic AC circuit calculations for a purely resistive circuit. Problem An AC voltage source has an output of Δv = (2.00 × 10² V)sin 2πft. This source is connected to a 1.00 × 10²-Ω resistor as in Active Figure 21.1. Find the rms voltage and rms current in ...

Verified Answer:

Obtain the maximum voltage by comparison of the gi...