A 1.00-mol sample of an ideal monatomic gas is taken through the cycle shown in the figure. The process A → B is a reversible isothermal expansion where PA = 9.0 atm, PB = 1.0 atm, VA = 10.0 L, and VB =90.0 L. P (atm) 5- A 10 Isothermal process 50 V (liters) (a) Calculate the net work done by the gas. KJ (b) Calculate the energy added to the gas by heat. kJ (c) Calculate the energy exhausted from the gas by heat. KJ (d) Calculate the efficiency of the cycle. %
A 1.00-mol sample of an ideal monatomic gas is taken through the cycle shown in the figure. The process A → B is a reversible isothermal expansion where PA = 9.0 atm, PB = 1.0 atm, VA = 10.0 L, and VB =90.0 L. P (atm) 5- A 10 Isothermal process 50 V (liters) (a) Calculate the net work done by the gas. KJ (b) Calculate the energy added to the gas by heat. kJ (c) Calculate the energy exhausted from the gas by heat. KJ (d) Calculate the efficiency of the cycle. %
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A 1.00-mol sample of an ideal monatomic gas is taken through the cycle shown in the figure. The process AB is a reversible isothermal expansion where P
90.0 L.
and VB
=
P (atm)
1
C
10
Isothermal
process
1
50
-V (liters)
(a) Calculate the net work done by the gas.
kJ
(b) Calculate the energy added to the gas by heat.
kJ
(c) Calculate the energy exhausted from the gas by heat.
KJ
(d) Calculate the efficiency of the cycle.
%
=
9.0 atm, PB
= 1.0 atm, VA = 10.0 L,
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