tutorial 2 by miss anis atikah ahmad. question 1 a heat engine uses reservoirs at 800°c and 0°c....
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![Page 1: Tutorial 2 By Miss Anis Atikah Ahmad. Question 1 A heat engine uses reservoirs at 800°C and 0°C. a)Calculate maximum possible efficiency b)I f q H is](https://reader037.vdocuments.mx/reader037/viewer/2022102718/56649f525503460f94c75fbd/html5/thumbnails/1.jpg)
Tutorial 2
ByMiss Anis Atikah Ahmad
![Page 2: Tutorial 2 By Miss Anis Atikah Ahmad. Question 1 A heat engine uses reservoirs at 800°C and 0°C. a)Calculate maximum possible efficiency b)I f q H is](https://reader037.vdocuments.mx/reader037/viewer/2022102718/56649f525503460f94c75fbd/html5/thumbnails/2.jpg)
Question 1
A heat engine uses reservoirs at 800°C and 0°C.a) Calculate maximum possible efficiencyb) If qH is 1000 J, calculate the maximum -w and the
minimum value of -qC
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Question 1
a) Calculate maximum possible efficiency
TH= 800°C = 1073.15K, TC =0°C =273.15K
rev Work output per cycle
Energy input per cycle H
C
H
C
T
T
q
q 11
745.015.1073
15.2731
K
K
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Question 1
b) If qH is 1000 J, calculate the maximum -w and the minimum value of -qC
rev Work output per cycle
Energy input per cycle
J
w
1000745.0
JJw 7451000745.0max
H
C
q
q1
H
C
q
q1745.0
J
qC1000
1745.0
JqC 1000745.01000 JqC 255
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Question 2
Calculate ΔS for each of the following changes in state of 2.50 mol of a perfect monoatomic gas with CV,m =1.5R for all temperatures:a) (1.50 atm, 400K) (3.00 atm, 600K)b) (2.50 atm, 20.0L) (2.00 atm, 30.0L)c) (28.5L, 400K) (42.0L atm, 400K)
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Question 2
• For perfect gas;
revrev dwdUdq
dVTnRTdTCPdVdTCdq VVrev
revrev dwdqdU TqddS rev
VnRdVTdTCdS V
2
1
2
1
V
V
T
T
V VnRdVTdTCS
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Question 2
• Since CV,m is constant (same for all temperatures) ;
• Given, , thus:
1212 lnln VVnRTTCS V
RC mV 5.1,
1212, lnln VVnRTTCn mV
1212 lnln5.1 VVnRTTnRS
1212 lnln5.1 VVTTnR
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Question 2
a) P1 = 1.5 atm, P2= 3 atm, T1 = 400 K, T2= 600K
1212 lnln5.1 VVTTnRS
KatmatmKKmolJmol 40035.1600ln400600ln5.1314.85.2
1212ln400600ln5.1314.85.2 TPPTKmolJmol
KJ66.6
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Question 2
b) P1 = 2.5 atm, P2= 2 atm, V1 = 20L, V2= 30L
1212 lnln5.1 VVTTnRS
LLLatmLatmKmolJmol 2030ln205.2302ln5.1314.85.2
LLVPVPKmolJmol 2030lnln5.1314.85.2 1122
KJ1.14
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Question 2
c) V1 = 28.5L, V2= 42L, T1= T2 = 400K
1212 lnln5.1 VVTTnRS
LLKKKmolJmol 5.2842ln400400ln5.1314.85.2
KJ06.8
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Question 3After 200 g of gold [cP = 0.0313 cal/(g °C)] at 120°C is dropped into 25.0 g of water at 10°C, the system is allowed to reach equilibrium in an adiabatic container. Calculate:
a) The final temperatureb) ΔSAu
c) ΔSH2O
d) ΔSAu + ΔSH2O
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Question 3
• At constant pressure;
• At equilibrium;
dTmcdTCdqdq PPPrev
2
1
T
T
rev
T
dqS
122,2121,1 TTcmTTcm PP
101200313.0200 22,22 TcmTCgcalg P
101200313.0200 22,22 TcmTCgcalg P
(a)
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Question 3
• Solving for T2;
CT 322
1000.1251200313.0200 22 TCgcalgTCgcalg
102512026.6 22 TCcalTCcal
2502526.62.751 22 TT
2.100126.31 2 T
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Question 3
2
1
T
T
P
T
dTmcS
2
1
T
T
rev
T
dqS
(b)dTmcdTCdqdq PPPrev
12ln TTmcS P
15.39315.305ln/0313.0200 KgcalgS
Kcal /59.1
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Question 3
2
1
T
T
P
T
dTmcS
2
1
T
T
rev
T
dqS
(c)dTmcdTCdqdq PPPrev
12ln TTmcS P
15.28315.305ln/00.125 KgcalgS
Kcal /87.1
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Question 3(d)
waterAutotal SSS
KcalKcal /28.0/87.159.1
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Question 4
A sample consisting of 2.00 mol of diatomic perfect gas molecules at 250 K is compressed reversibly and adiabatically until its temperature reaches 300 K. Given that CV,m = 27.5 JK-1mol-1, calculate:a) qb) wc) ΔUd) ΔHe) ΔS.
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n = 2.00 mol CV,m = 27.5 JK-1mol-1
T1= 250 K T2 = 300 K
Process: reversible adiabatic of a perfect gas
a) qrev =0
b) w = ?Recall first law:ΔU = q + wFor perfect gas,
Thus,
Question 4
wdTCV 0 JKmolKJmoldTCV 27502503005.270.2 1
dTCU V
Jw 2750
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Question 4c) ΔU ΔU = q + w = 0 + w = w = 2750 J
d) ΔHFor a perfect gas;
is not given. However, we know that,Thus;
dTCH P
PC nRCC VP
dTCnRH V
dTnCnR mV ,
KKJmolKJmol 2503005.27314.80.2 111
J4.3581
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Question 4e) ΔS
2
1 T
dqS rev
Since qrev =0 (reversible adiabatic),
0S
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Question 5 A system consisting of 1.5 mol CO2 (g), initially at 15°C and
9 atm and confined to a cylinder of cross-section 100.0 cm2. It is allowed to expand adiabatically against an external pressure of 1.5 atm until the piston has moved outwards through 15 cm. Assume that carbon dioxide may be considered a perfect gas with CV,m = 28.8 JK-1mol-1, calculate:a) qb) wc) ΔUd) ΔTe) ΔS
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A system consisting of 1.5 mol CO2 (g), initially at 15°C and 9 atm and confined to a cylinder of cross-section 100.0 cm2. It is allowed to expand adiabatically against an external pressure of 1.5 atm until the piston has moved outwards through 15 cm. Assume that carbon dioxide may be considered a perfect gas with CV,m = 28.8 JK-1mol-1, calculate:a) qb) wc) ΔUd) ΔTe) ΔS
Question 5
15 cm
V1 V2
T1 = 15°C
P1 = 9 atm
Pext = 1.5 atm
A = 100 cm2
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• n = 1.5 mol CO2
• CV,m = 28.8 JK-1mol-1
• A perfect gas• Adiabatic
a) q = 0 (adiabatic)
b) w = ?
Question 5
15 cm
V1 V2
T1 = 15°C
P1 = 9 atm
Pext = 1.5 atm
A = 100 cm2
VPW ext
cmcmatm 151005.1 2
Jcm
m
atm
Pacmatm 25.227
10
1
1
1001.12250
36
353
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• n = 1.5 mol CO2
• CV,m = 28.8 JK-1mol-1
• A perfect gas• Adiabatic
c) ΔU = ?
d) ΔT = ? For perfect gas, Thus,
Question 5
15 cm
V1 V2
T1 = 15°C
P1 = 9 atm
Pext = 1.5 atm
A = 100 cm2
wqU
JwwU 25.2270
dTCndTCU mVV , mVCnUT ,
KmolJKmolJ 26.58.285.125.227 11
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• n = 1.5 mol CO2
• CV,m = 28.8 JK-1mol-1
• A perfect gas• Adiabatic
e) ΔS=?From part d)
Question 5
15 cm
V1 V2
T1 = 15°C
P1 = 9 atm
Pext = 1.5 atm
A = 100 cm2
KT 26.5The gas undergoes constant-volume
cooling followed by isothermal expansion21 SSS
3
2 2
32
1 1
2 lnlnV
VnRdT
T
C
V
VnRdT
T
C VV
2
32
1
lnV
VnRdT
T
CV
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• n = 1.5 mol CO2
• CV,m = 28.8 JK-1mol-1
• A perfect gas• Adiabatic
e) ΔS=?
Question 5
15 cm
V1 V2
T1 = 15°C
P1 = 9 atm
Pext = 1.5 atm
A = 100 cm2
TTT 12
2
32
1
lnV
VnRdT
T
CS V
2
3
1
2 lnlnV
VnR
T
TCV
KK 89.28226.5)15.27315(
21 VV Constant volume cooling
1
11 P
nRTV
atm
KmolKatmLmol
9
15.28810206.85.1 112
L941.3Find this first!
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• n = 1.5 mol CO2
• CV,m = 28.8 JK-1mol-1
• A perfect gas• Adiabatic
e) ΔS=?
Question 5
15 cm
V1 V2
T1 = 15°C
P1 = 9 atm
Pext = 1.5 atm
A = 100 cm2
2
32
1
lnV
VnRdT
T
CS V
2
3
1
2 lnlnV
VnR
T
TCV
VVV 23
Lcm
LcmcmL 44.5
1
1015100941.3
3
32
L
LmolJKmol
K
KmolJKmol
941.3
44.5ln314.85.1
15.288
89.282ln8.285.1 1111
1224.301996.479588.0 JK