EBK PHYSICS FOR SCIENTISTS AND ENGINEER
EBK PHYSICS FOR SCIENTISTS AND ENGINEER
10th Edition
ISBN: 8220106906149
Author: Jewett
Publisher: Cengage Learning US
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Chapter 32, Problem 43AP

(a)

To determine

The inductive reactance in the circuit.

(a)

Expert Solution
Check Mark

Answer to Problem 43AP

The inductive reactance in the circuit is 78.5Ω .

Explanation of Solution

Given info: The value of resistance is 150Ω , value of inductance is 0.250H , value of capacitance is 2.00μF , frequency is 50.0Hz and source with 210V .

Formula to calculate the inductive reactance of the circuit is,

XL=2πfL

Here,

XL is the inductive reactance of the circuit.

f is the frequency of the source.

L is the inductance of the inductor.

Substitute 50.0Hz for f and 0.250H for L to find XL .

XL=2π×50.0Hz×0.250H=78.5Ω

Conclusion:

Therefore, the inductive reactance in the circuit is 78.5Ω .

(b)

To determine

The capacitive reactance in the circuit.

(b)

Expert Solution
Check Mark

Answer to Problem 43AP

The capacitive reactance in the circuit is 1.59 .

Explanation of Solution

Given info: The value of resistance is 150Ω , value of inductance is 0.250H , value of capacitance is 2.00μF , frequency is 50.0Hz and source with 210V .

Formula to calculate the inductive reactance of the circuit is,

XC=12πfC

Here,

XC is the inductive reactance of the circuit.

f is the frequency of the source.

C is the capacitance of the capacitor.

Substitute 50.0Hz for f and 2.00μF for C to find XC .

XC=12π×50.0Hz×2.00μF×106F1μF=1.59×103Ω×1031Ω=1.59

Conclusion:

Therefore, the capacitive reactance in the circuit is 1.59 .

(c)

To determine

The impedance in the circuit.

(c)

Expert Solution
Check Mark

Answer to Problem 43AP

The impedance in the circuit is 1.52 .

Explanation of Solution

Given info: The value of resistance is 150Ω , value of inductance is 0.250H , value of capacitance is 2.00μF , frequency is 50.0Hz and source with 210V .

Formula to calculate the impedance circuit is,

Z=R2+(XLXC)2

Here,

Z is the impedance in the circuit.

R is the resistance in the circuit.

Substitute 150Ω for R , 78.5Ω for XL and 1.59 for XC to find Z .

Z=(150Ω)2+(78.5Ω1.59×1031Ω)2=2307132.25Ω2=1.52×103Ω×1031Ω=1.52

Conclusion:

Therefore, the impedance in the circuit is 1.52 .

(d)

To determine

The maximum current in the circuit.

(d)

Expert Solution
Check Mark

Answer to Problem 43AP

The maximum current in the circuit is 138mA .

Explanation of Solution

Given info: The value of resistance is 150Ω , value of inductance is 0.250H , value of capacitance is 2.00μF , frequency is 50.0Hz and source with 210V .

Formula to calculate the maximum current in the circuit is,

Imax=ΔVmaxZ

Here,

Imax is the maximum current in the circuit.

ΔVmax is the maximum source voltage.

Substitute 1.52 for Z and 210V for ΔVmax to find Imax .

Imax=210V1.52=0.138A×103mA1A=138mA

Conclusion:

Therefore, the maximum current in the circuit is 138mA .

(e)

To determine

The phase angle between the current and the source voltage.

(e)

Expert Solution
Check Mark

Answer to Problem 43AP

The phase angle between the current and the source voltage is 84.3° .

Explanation of Solution

Given info: The value of resistance is 150Ω , value of inductance is 0.250H , value of capacitance is 2.00μF , frequency is 50.0Hz and source with 210V .

Formula to calculate the phase angle is,

ϕ=tan1(XLXCR)

Here,

ϕ is the phase angle between the current and the source voltage.

Substitute 150Ω for R , 78.5Ω for XL and 1.59 for XC to find ϕ .

ϕ=tan1(78.5Ω1.59150Ω)=tan1(10.07)=84.3°

Conclusion:

Therefore, the phase angle between the current and the source voltage is 84.3° .

(f)

To determine

The power factor for the circuit.

(f)

Expert Solution
Check Mark

Answer to Problem 43AP

The power factor for the circuit is 0.0987 .

Explanation of Solution

Given info: The value of resistance is 150Ω , value of inductance is 0.250H , value of capacitance is 2.00μF , frequency is 50.0Hz and source with 210V .

Formula to calculate the power factor for the circuit is,

powerfactor=cosϕ

Substitute 84.3° for ϕ to find powerfactor .

powerfactor=cos(84.3°)=0.0987

Conclusion:

Therefore, the power factor for the circuit is 0.0987 .

(g)

To determine

The power input to the circuit.

(g)

Expert Solution
Check Mark

Answer to Problem 43AP

The power input to the circuit is 1.43W .

Explanation of Solution

Given info: The value of resistance is 150Ω , value of inductance is 0.250H , value of capacitance is 2.00μF , frequency is 50.0Hz and source with 210V .

Formula to calculate the power input to the circuit is,

P=(ΔVrms)2Zcosϕ (1)

Write the expression for the rms voltage.

ΔVrms=ΔVmax2

Here,

ΔVrms is the rms voltage to the circuit.

Replace (ΔVmax/2) by ΔVrms in equation (1).

P=(ΔVmax/2)2Zcosϕ

Substitute 210V for ΔVmax , 1.52 for Z and 0.0987 for cosϕ to find P .

P=(210V21.52×103Ω1)(0.0987)=W×0.0987=1.43W

Conclusion:

Therefore, the power input to the circuit is 1.43W .

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Chapter 32 Solutions

EBK PHYSICS FOR SCIENTISTS AND ENGINEER

Ch. 32 - Figure P32.4 shows three lightbulbs connected to a...Ch. 32 - In the AC circuit shown in Figure P32.3, R = 70.0 ...Ch. 32 - In a purely inductive AC circuit as shown in...Ch. 32 - Prob. 7PCh. 32 - A 20.0-mH inductor is connected to a North...Ch. 32 - An AC source has an output rms voltage of 78.0 V...Ch. 32 - Review. Determine the maximum magnetic flux...Ch. 32 - A 1.00-mF capacitor is connected to a North...Ch. 32 - An AC source with an output rms voltage of 86.0 V...Ch. 32 - What is the maximum current in a 2.20-F capacitor...Ch. 32 - A capacitor C is connected to a power supply that...Ch. 32 - In addition to phasor diagrams showing voltages...Ch. 32 - An AC source with Vmax = 150 V and f = 50.0 Hz is...Ch. 32 - You are working in a factory and have been tasked...Ch. 32 - Prob. 18PCh. 32 - An RLC circuit consists of a 150- resistor, a...Ch. 32 - A 60.0-ft resistor is connected in series with a...Ch. 32 - A series RLC circuit has a resistance of 45.0 and...Ch. 32 - Prob. 22PCh. 32 - A series RLC circuit has a resistance of 22.0 and...Ch. 32 - An AC voltage of the form v = 90.0 sin 350t, where...Ch. 32 - The LC circuit of a radar transmitter oscillates...Ch. 32 - A series RLC circuit has components with the...Ch. 32 - You wish to build a series RLC circuit for a...Ch. 32 - A 10.0- resistor, 10.0-mH inductor, and 100-F...Ch. 32 - A resistor R, inductor L, and capacitor C are...Ch. 32 - The primary coil of a transformer has N1 = 350...Ch. 32 - A person is working near the secondary of a...Ch. 32 - A transmission line that has a resistance per unit...Ch. 32 - Prob. 33APCh. 32 - A 400- resistor, an inductor, and a capacitor are...Ch. 32 - Energy is to be transmitted over a pair of copper...Ch. 32 - Energy is to be transmitted over a pair of copper...Ch. 32 - A transformer may be used to provide maximum power...Ch. 32 - Show that the rms value for the sawtooth voltage...Ch. 32 - Marie Cornu, a physicist at the Polytechnic...Ch. 32 - A series RLC circuit has resonance angular...Ch. 32 - Review. One insulated conductor from a household...Ch. 32 - (a) Sketch a graph of the phase angle for an RLC...Ch. 32 - Prob. 43APCh. 32 - Review. In the circuit shown in Figure P32.44,...Ch. 32 - You have decided to build your own speaker system...Ch. 32 - A series RLC circuit is operating at 2.00 103 Hz....Ch. 32 - You are trying to become a member of the Physics...Ch. 32 - A series RLC circuit in which R = l.00 , L = 1.00...Ch. 32 - The resistor in Figure P32.49 represents the...Ch. 32 - An 80.0- resistor and a 200-mH inductor are...Ch. 32 - Prob. 51CP
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