COLLEGE PHYSICS V1+WEBASSIGN MULTI-TERM
COLLEGE PHYSICS V1+WEBASSIGN MULTI-TERM
11th Edition
ISBN: 9780357683538
Author: SERWAY
Publisher: CENGAGE L
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Chapter 21, Problem 24P

An AC source operating at 60. Hz with a maximum voltage of 170 V is connected in series with a resistor (R = 1.2 kΩ) and an inductor (L = 2.8 H). (a) What is the maximum value of the current in the circuit? (b) What are the maximum values of the potential difference across the resistor and the inductor? (c) When the current is at a maximum, what are the magnitudes of the potential differences across the resistor, the inductor, and the AC source? (d) When the current is zero, what are the magnitudes of the potential difference across the resistor, the inductor, and the AC source?

(a)

Expert Solution
Check Mark
To determine
The maximum current in the circuit.

Answer to Problem 24P

The maximum current in the circuit is 0.11A .

Explanation of Solution

Given Info: The resistance of the resistor is 1.2 . The inductance of the inductor is 2.8H . The frequency of the ac circuit is 60Hz . Maximum voltage of the source is 170V .

The inductive reactance of the circuit is,

XL=2πfL

  • f is the frequency of the ac source
  • L is the inductance of the inductor

Substitute 60Hz for f , 2.8H for L to determine the inductive reactance,

XL=2π(60Hz)(2.8H)=1.1×103Ω

The formula to calculate the impedance of the circuit where the components are in series is given by,

Z=R2+(XLXC)2

  • R is the resistance of the resistor
  • XL is the inductive reactance
  • XC is the capacitive reactance

Substitute 1.2 for R , 1.1×103Ω for XL , 0 for XC to determine the impedance of the circuit,

Z=(1.2)2+(1.1×103Ω0)2=(1.2×103Ω)2+(1.1×103Ω)2=1.6×103Ω

Conclusion:

From section 2 the impedance of the circuit is 1.6×103Ω .

The maximum current in the circuit is given by,

Im=VmZ

  • Vm is the maximum voltage supplied by the source
  • Z is the impedance of the circuit

Substitute 1.6×103Ω for Z , 170V for Vm to determine the maximum current in the circuit,

Im=170V1.6×103Ω=0.11A

The maximum current in the circuit is 0.11A .

b)

Expert Solution
Check Mark
To determine
The maximum voltage across the resistor and inductor.

Answer to Problem 24P

The maximum voltage across the inductor is 1.2×102V .

Explanation of Solution

Given Info: The resistance of the resistor is 1.2 . The inductance of the inductor is 2.8H . The frequency of the ac circuit is 60Hz . Maximum voltage of the source is 170V .

The maximum voltage across the resistor is,

ΔVL,m=ImXL

  • Im is the maximum current in the circuit
  • XL is the inductive reactance

From section (a) the inductive reactance is 1.1×103Ω .

Substitute 1.1×103Ω for XL , 0.11A for Im to determine the maximum voltage across the resistor,

ΔVL,m=(0.11A)(1.1×103Ω)=1.2×102V

Conclusion: The maximum voltage across the inductor is 1.2×102V .

c)

Expert Solution
Check Mark
To determine
The potential difference across the resistor, inductor, and the ac source when the current is at its maximum.

Answer to Problem 24P

The voltage across the resistor when the current is maximum is 1.3×102V .

Explanation of Solution

Given Info: The resistance of the resistor is 1.2 . The inductance of the inductor is 2.8H . The frequency of the ac circuit is 60Hz . Maximum voltage of the source is 170V .

The current and the voltage across a resistor are in phase with each other. So when the current is maximum, the voltage across the resistor will be maximum.

The maximum voltage across the resistor is,

ΔVR,m=ImR

  • Im is the maximum current in the circuit
  • R is the resistance

Substitute 1.2 for R , 0.11A for Im to determine the maximum voltage across the resistor,

ΔVR,m=(0.11A)(1.2)=1.3×102V

The voltage across the resistor when the current is maximum is 1.3×102V .

The current and the voltage across an inductor are 90° out of phase with each other. Hence when the current reaches its maximum, the voltage across the inductor will reach its minimum.

Hence when the current reaches maximum, the voltage across the inductor will be zero.

The voltage across the inductor when the current is maximum is 0V .

When Kirchoff’s law is applied to the closed circuit,

ΔVsΔVRΔVL=0

  • ΔVs is the voltage across the AC source
  • ΔVR is the voltage across the resistor
  • ΔVL is the voltage across the inductor

The voltage across the AC source will be,

ΔVs=ΔVR+ΔVL

Substitute 1.3×102V for ΔVR , 0 for ΔVL to determine the voltage across the AC source,

ΔVs=1.3×102V+0=1.3×102V

Conclusion:

When the current is maximum the potential difference across the resistor, inductor, and the ac source is 1.3×102V , 0V , and 1.3×102V respectively.

d)

Expert Solution
Check Mark
To determine
The potential difference across the resistor, inductor, and the ac source when the current is at it is zero.

Answer to Problem 24P

When the current is zero the potential difference across the resistor, inductor, and the ac source is 0V , 1.3×102V and 1.3×102V respectively.

Explanation of Solution

Given Info: The resistance of the resistor is 1.2 . The inductance of the inductor is 2.8H . The frequency of the ac circuit is 60Hz . Maximum voltage of the source is 170V .

When Kirchoff’s law is applied to the closed circuit,

ΔVsΔVRΔVL=0

  • ΔVs is the voltage across the AC source
  • ΔVR is the voltage across the resistor
  • ΔVL is the voltage across the inductor

The voltage across the AC source will be,

ΔVs=ΔVR+ΔVL

Substitute 0 for ΔVR , 1.2×102V for ΔVL to determine the voltage across the AC source,

ΔVs=0+1.2×102V=1.2×102V

The current and the voltage across a resistor are in phase with each other. So when the current is minimum, the voltage across the resistor will be minimum. So when the current is zero the voltage across the resistor will be zero.

The voltage across the resistor when the current is zero is 0 .

The current and the voltage across an inductor are 90° out of phase with each other. Hence when the current reaches its maximum, the voltage across the inductor will reach its minimum. When the current is minimum the voltage will be maximum.

The maximum voltage across the resistor is,

ΔVL,m=ImXL

  • Im is the maximum current in the circuit
  • XL is the inductive reactance

From section (a) the inductive reactance is 1.1×103Ω .

Substitute 1.1×103Ω for XL , 0.11A for Im to determine the maximum voltage across the resistor,

ΔVL,m=(0.11A)(1.1×103Ω)=1.2×102V

The voltage across the inductor when the current is zero is 1.2×102V .

When Kirchoff’s law is applied to the closed circuit,

ΔVsΔVRΔVL=0

  • ΔVs is the voltage across the AC source
  • ΔVR is the voltage across the resistor
  • ΔVL is the voltage across the inductor

The voltage across the AC source will be,

ΔVs=ΔVR+ΔVL

Substitute 0 for ΔVR , 1.2×102V for ΔVL to determine the voltage across the AC source,

ΔVs=0+1.2×102V=1.2×102V

The voltage across the AC source when the current is zero is 1.2×102V .

Conclusion:

When the current is zero the potential difference across the resistor, inductor, and the ac source is 0V , 1.2×102V and 1.2×102V respectively.

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Chapter 21 Solutions

COLLEGE PHYSICS V1+WEBASSIGN MULTI-TERM

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