EBK PHYSICS FOR SCIENTISTS AND ENGINEER
EBK PHYSICS FOR SCIENTISTS AND ENGINEER
6th Edition
ISBN: 9781319321710
Author: Mosca
Publisher: VST
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Chapter 19, Problem 34P

(a)

To determine

The temperature of each numbered state of the cycle.

(a)

Expert Solution
Check Mark

Answer to Problem 34P

The temperature at state 1 is 301K , the temperature at state 2 is 601K and the temperature at state 1 is 601K .

Explanation of Solution

Given:

The number of mol of an ideal monatomic gas is n=1mol .

The initial volume of gas is V1=25.0L .

Formula used:

The expression for ideal gas law is given as,

  PV=nRT

Here, R is the gas constant and T is the temperature.

Calculation:

The value of gas constant is 8.314J/molK

The temperature T1 is calculated as,

  T1=P1V1nR=( 100kPa)( 25.0L)1.00mol×8.314J molK=301K

The temperature T2 is calculated as,

  T2=P2V1nR=( 200kPa)( 25.0L)( 1.00mol)×8.314J molK=601K

The temperature T3 is calculated as,

  T3=T2=601K

Conclusion:

Therefore, the temperature at state 1 is 301K , the temperature at state 2 is 601K and the temperature at state 1 is 601K .

(b)

To determine

The heat transfer for each part of the cycle.

(b)

Expert Solution
Check Mark

Answer to Problem 34P

The heat transfer for process 12 is 3.74kJ , the heat transfer for process 23 is 3.46kJ and the heat transfer for process 31 is 6.24kJ .

Explanation of Solution

Formula used:

The expression for heat transfer for constant volume process 12 is given as,

  Q12=32RΔT12

Here, R is the gas constant.

The expression for heat transfer during isothermal process 23 is given as,

  Q23=nRT2ln(V3V2)

The expression for heat transfer during isobaric compression process 31 is given as,

  Q31=52RΔT31

Calculation:

The value of gas constant is 8.314J/molK .

The heat transfer for constant volume process 12 is calculated as,

  Q12=32RΔT12=32(8.314J molK)(601K301K)=3.74kJ

The heat transfer for isothermal process 23 is calculated as,

  Q23=nRT2ln( V 3 V 2 )=(1.00mol)(8.314J molK)(601K)ln( 2×25 25)=3.46kJ

The heat transfer for isobaric compression process 31 is calculated as,

  Q31=52RΔT31=52(8.314J molK)(301K601K)=6.24kJ

Conclusion:

Therefore, the heat transfer for process 12 is 3.74kJ , the heat transfer for process 23 is 3.46kJ and the heat transfer for process 31 is 6.24kJ .

(c)

To determine

The efficiency of the cycle.

(c)

Expert Solution
Check Mark

Answer to Problem 34P

The efficiency of the cycle is 13% .

Explanation of Solution

Formula used:

The expression for the efficiency of the cycle is given as,

  ε=WQin

The expression for heat addition is given as,

  Qin=Q12+Q23

The expression for work done from first law of thermodynamics is given as,

  W=Q=Q12+Q23+Q31

Calculation:

The heat addition is calculated as,

  Qin=Q12+Q23=3.74kJ+3.46kJ=7.2kJ

The work done is calculated as,

  W=Q=Q12+Q23+Q31=3.74kJ+3.46kJ6.24kJ=0.96kJ

The efficiency of the cycle is calculated as,

  ε=WQ in=0.96kJ7.2kJ=13%

Conclusion:

Therefore, the efficiency of the cycle is 13% .

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