EBK PHYSICS FOR SCIENTISTS AND ENGINEER
EBK PHYSICS FOR SCIENTISTS AND ENGINEER
9th Edition
ISBN: 9780100460300
Author: SERWAY
Publisher: YUZU
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Chapter 33, Problem 33.79CP

(a)

To determine

 The angular frequency at which the power delivered to the resistor is maximum.

(a)

Expert Solution
Check Mark

Answer to Problem 33.79CP

 The angular frequency at which the power delivered to the resistor is maximum is 224s1 .

Explanation of Solution

Given info: The maximum value of voltage is 100 . The value of the inductance is 2.00H , the value of the capacitance is 10.0μF and the value of the resistance is 10.0Ω .

For the condition of maximum power through the resistor, the current through the resistor is to be greatest. For maximum value of the current the value of impedance of the circuit has to be least. The value of impedance is least at resonance frequency.

The expression for the resonance angular frequency is,

ωο=1LC

Here,

L is the value of impedance.

C is the value of capacitance.

Substitute 2.00H for L and 10.0μF for C in the above expression.

ωο=1(2.00H)(10.0μF)=223.6224s1

Conclusion:

Therefore, the angular frequency at which the power delivered to the resistor is maximum is 224s1 .

(b)

To determine

 The average power delivered at resonance frequency.

(b)

Expert Solution
Check Mark

Answer to Problem 33.79CP

The average power delivered at resonance frequency is 500W .

Explanation of Solution

Given info: The maximum value of voltage is 100V . The value of the inductance is 2.00H , the value of the capacitance is 10.0μF and the value of the resistance is 10.0Ω .

The expression for power delivered is,

P=(ΔVm2)2RZ2

Here,

ΔVm is the value of maximum voltage.

Z is the impedance.

For the condition of resonance the value of impedance is equal to the value of resistance.

Substitute Pm for P and R for Z in the above expression.

Pm=(ΔVm2)2RR2=(ΔVm)22R

Substitute 10.0Ω for R and 100V ΔVm in the above expression.

Pm=(100V)22(10.0Ω)=500W

Conclusion:

Therefore, the average power delivered at resonance frequency is 500W .

(c)

To determine

 The two angular frequencies at which power is one half of the maximum value.

(c)

Expert Solution
Check Mark

Answer to Problem 33.79CP

 The two angular frequencies at which power is one half of the maximum value are 221s1 and 226s1 .

Explanation of Solution

Given info: The maximum value of voltage is 100V . The value of the inductance is 2.00H , the value of the capacitance is 10.0μF and the value of the resistance is 10.0Ω .

The expression for inductive reactance is,

XL=ωL

Here,

ω is the source angular frequency.

L is the inductance.

The expression for capacitive reactance is,

XC=1ωC

Here,

C is the capacitance.

The expression for the impedance of the circuit is.

Z=R2+(XLXC)2

The power is half of the maximum power.

The expression of power in terms of max power is

P=Pm2

Substitute (ΔVm2)2RZ2 for P and ΔVm22R for Pm in the above expression.

(ΔVm2)2RZ2=12(ΔVm22R)Z2=2R2

Substitute R2+(XLXC)2 for Z in the above expression.

R2+(XLXC)2=2R2(XLXC)=±R (1)

Substitute ωL for XL and 1ωC for XC in the above expression for positive value of resistance.

(ωL1ωC)=Rω2LC+ωCR1=0

The first values of ω are calculated by the expression,

ω=CR±(CR)2+4LC2LC

Substitute ω1 for ω ,   2.00H for L , 10.0μF for C and 10.0Ω for R in the above expression.

ω1=(10.0μF)(10.0Ω)±((10.0μF)(10.0Ω))2+4(2.00H)(10.0μF)2(2.00H)(10.0μF)=(10.0Ω)±(10.0Ω)2+4(2.00H)(10.0μF)12(2.00H)=2.5±223.6s1

The value of the angular frequency is always positive, therefore the negative value is neglected

The first values of ω is,

ω1=221.1s1221s1

Substitute ωL for XL and 1ωC for XC in the equation (1) for negative value of resistance.

(ωL1ωC)=Rω2LCωCR1=0

The second values of ω is calculated by the expression,

ω=CR±(CR)2+4LC2LC

Substitute ω2 for ω , 2.00H for L , 10.0μF for C and 10.0Ω for R in the above expression.

ω2=(10.0μF)(10.0Ω)±((10.0μF)(10.0Ω))2+4(2.00H)(10.0μF)2(2.00H)(10.0μF)=(10.0Ω)±(10.0Ω)2+4(2.00H)(10.0μF)12(2.00H)=2.5±223.6

The value of the angular frequency is always positive, therefore the negative value is neglected

The second value of ω is,

ω1=226.1s1226s1

Conclusion:

Therefore, the two angular frequencies at which power is one half of the maximum value are 221s1 and 226s1 .

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Chapter 33 Solutions

EBK PHYSICS FOR SCIENTISTS AND ENGINEER

Ch. 33 - Prob. 33.4OQCh. 33 - Prob. 33.5OQCh. 33 - A sinusoidally varying potential difference has...Ch. 33 - A series RLCcircuit contains a 20.0- resistor, a...Ch. 33 - A resistor, a capacitor, and an inductor are...Ch. 33 - (a) Why does a capacitor act as a short circuit at...Ch. 33 - What is the plia.se angle in a series RLC circuit...Ch. 33 - Prob. 33.11OQCh. 33 - A 6.00-V battery is connected across the primary...Ch. 33 - Do AC ammeters and voltmeters read (a)...Ch. 33 - (a) Explain how the quality factor is related to...Ch. 33 - (a) Explain how the mnemonic ELI the ICE man can...Ch. 33 - Why is the sum of the maximum voltages across each...Ch. 33 - (a) Does the phase angle in an RLC series circuit...Ch. 33 - Prob. 33.5CQCh. 33 - As shown in Figure CQ33.6, a person pulls a vacuum...Ch. 33 - Prob. 33.7CQCh. 33 - Will a transformer operate if a battery is used...Ch. 33 - Prob. 33.9CQCh. 33 - Prob. 33.10CQCh. 33 - When an AC source is connected across a 12.0-...Ch. 33 - (a) What is the resistance of a lightbulb that...Ch. 33 - An AC power supply produces a maximum voltage Vmax...Ch. 33 - A certain lightbulb is rated at 60.0 W when...Ch. 33 - The current in the circuit shown in Figure P32.3...Ch. 33 - In the AC circuit shown in Figure P32.3, R = 70.0 ...Ch. 33 - An audio amplifier, represented by the AC I source...Ch. 33 - Figure P32.4 shows three lightbulbs connected to a...Ch. 33 - An inductor has a .54.0- reactance when connected...Ch. 33 - In a purely inductive AC circuit as shown in...Ch. 33 - Prob. 33.11PCh. 33 - An inductor is connected to an AC power supply...Ch. 33 - An AC source has an output rms voltage of 78.0 V...Ch. 33 - A 20.0-mH inductor is connected to a North...Ch. 33 - Review. 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In an RLC series circuit that includes a...Ch. 33 - Prob. 33.34PCh. 33 - A series RLC circuit has a resistance of 45.0 and...Ch. 33 - An AC voltage of the form = 100 sin 1 000t, where...Ch. 33 - A series RLC circuit has a resistance of 22.0 and...Ch. 33 - An AC voltage of the form v = 90.0 sin 350t, where...Ch. 33 - ln a certain series RLC circuit, Irms = 9.00 A,...Ch. 33 - Prob. 33.40PCh. 33 - Prob. 33.41PCh. 33 - A series RLC circuit has components with the...Ch. 33 - An RLC circuit is used in a radio to tune into an...Ch. 33 - The LC circuit of a radar transmitter oscillates...Ch. 33 - A 10.0- resistor, 10.0-mH inductor, and 100-F...Ch. 33 - A resistor R, inductor L, and capacitor C are...Ch. 33 - Review. 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The voltage phasor diagram for a certain...Ch. 33 - Prob. 33.60APCh. 33 - Energy is to be transmitted over a pair of copper...Ch. 33 - Energy is to be transmitted over a pair of copper...Ch. 33 - A 400- resistor, an inductor, and a capacitor are...Ch. 33 - Show that the rms value for the sawtooth voltage...Ch. 33 - A transformer may be used to provide maximum power...Ch. 33 - A capacitor, a coil, and two resistors of equal...Ch. 33 - Marie Cornu, a physicist at the Polytechnic...Ch. 33 - A series RLC circuit has resonance angular...Ch. 33 - Review. One insulated conductor from a household...Ch. 33 - (a) Sketch a graph of the phase angle for an RLC...Ch. 33 - In Figure P33.71, find the rms current delivered...Ch. 33 - Review. In the circuit shown in Figure P32.44,...Ch. 33 - Prob. 33.73APCh. 33 - A series RLC circuit is operating at 2.00 103 Hz....Ch. 33 - A series RLC circuit consists of an 8.00-...Ch. 33 - A series RLC circuit in which R = l.00 , L = 1.00...Ch. 33 - The resistor in Figure P32.49 represents the...Ch. 33 - An 80.0- resistor and a 200-mH inductor are...Ch. 33 - Prob. 33.79CPCh. 33 - P33.80a shows a parallel RLC circuit. The...Ch. 33 - Prob. 33.81CP
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