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 Page 1


 
2024 
 
Q1 - 2024 (01 Feb Shift 1) 
The pressure and volume of an ideal gas are related as PV
3/2
= K (Constant). The work 
done by gas when the gas is taken from state ?? ?? 1
,?? 1
,?? 1
  to state B P
2
, V
2
, T
2
  is : 
[We modified question statement, In official NTA paper question was incomplete] 
(1) 2 P
1
 V
1
-P
2
 V
2
  
(2) 2 P
2
 V
2
-P
1
 V
1
  
(3) 2  P
1
 V
1
- P
2
 V
2
  
(4) 2 ?? 2
 ?? 2
-?? 1
 ?? 1
  
 
Q2 - 2024 (01 Feb Shift 2) 
A diatomic gas (?=1.4) does 200 J of work when it is expanded isobarically. The heat 
given to the gas in the process is: 
(1) 850 J 
(2) 800 J 
(3) 600 J 
(4) 700 J 
 
Q3 - 2024 (27 Jan Shift 1) 
0.08 kg air is heated at constant volume through 5
°
C. The specific heat of air at constant 
volume is 0.17kcal/kg
°
C and J =4.18 joule /cal. The change in its internal energy is 
approximately. 
(1) 318 J 
(2) 298 J 
(3) 284 J 
(4) 142 J 
 
Q4 - 2024 (27 Jan Shift 2) 
During an adiabatic process, the pressure of a gas is found to be proportional to the cube 
of its absolute temperature. The ratio of 
?? ?? ?? ?? Cp/Cv for the gas is : 
(1) 
5
3
 
(2) 
3
2
 
Page 2


 
2024 
 
Q1 - 2024 (01 Feb Shift 1) 
The pressure and volume of an ideal gas are related as PV
3/2
= K (Constant). The work 
done by gas when the gas is taken from state ?? ?? 1
,?? 1
,?? 1
  to state B P
2
, V
2
, T
2
  is : 
[We modified question statement, In official NTA paper question was incomplete] 
(1) 2 P
1
 V
1
-P
2
 V
2
  
(2) 2 P
2
 V
2
-P
1
 V
1
  
(3) 2  P
1
 V
1
- P
2
 V
2
  
(4) 2 ?? 2
 ?? 2
-?? 1
 ?? 1
  
 
Q2 - 2024 (01 Feb Shift 2) 
A diatomic gas (?=1.4) does 200 J of work when it is expanded isobarically. The heat 
given to the gas in the process is: 
(1) 850 J 
(2) 800 J 
(3) 600 J 
(4) 700 J 
 
Q3 - 2024 (27 Jan Shift 1) 
0.08 kg air is heated at constant volume through 5
°
C. The specific heat of air at constant 
volume is 0.17kcal/kg
°
C and J =4.18 joule /cal. The change in its internal energy is 
approximately. 
(1) 318 J 
(2) 298 J 
(3) 284 J 
(4) 142 J 
 
Q4 - 2024 (27 Jan Shift 2) 
During an adiabatic process, the pressure of a gas is found to be proportional to the cube 
of its absolute temperature. The ratio of 
?? ?? ?? ?? Cp/Cv for the gas is : 
(1) 
5
3
 
(2) 
3
2
 
(3) 
7
5
 
(4) 
9
7
 
 
Q5 - 2024 (29 Jan Shift 1) 
A thermodynamic system is taken from an original state A to an intermediate state B by a 
linear process as shown in the figure. It's volume is then reduced to the original value 
from B to C by an isobaric process. The total work done by the gas from ?? to ?? and ?? to ?? 
would be : 
 
[We changed options. In official NTA paper no option was correct.] 
(1) 33800 J 
(2) 2200 J 
(3) 600 J 
(4) 800 J 
 
Q6 - 2024 (30 Jan Shift 2) 
Choose the correct statement for processes A\& B shown in figure. 
Page 3


 
2024 
 
Q1 - 2024 (01 Feb Shift 1) 
The pressure and volume of an ideal gas are related as PV
3/2
= K (Constant). The work 
done by gas when the gas is taken from state ?? ?? 1
,?? 1
,?? 1
  to state B P
2
, V
2
, T
2
  is : 
[We modified question statement, In official NTA paper question was incomplete] 
(1) 2 P
1
 V
1
-P
2
 V
2
  
(2) 2 P
2
 V
2
-P
1
 V
1
  
(3) 2  P
1
 V
1
- P
2
 V
2
  
(4) 2 ?? 2
 ?? 2
-?? 1
 ?? 1
  
 
Q2 - 2024 (01 Feb Shift 2) 
A diatomic gas (?=1.4) does 200 J of work when it is expanded isobarically. The heat 
given to the gas in the process is: 
(1) 850 J 
(2) 800 J 
(3) 600 J 
(4) 700 J 
 
Q3 - 2024 (27 Jan Shift 1) 
0.08 kg air is heated at constant volume through 5
°
C. The specific heat of air at constant 
volume is 0.17kcal/kg
°
C and J =4.18 joule /cal. The change in its internal energy is 
approximately. 
(1) 318 J 
(2) 298 J 
(3) 284 J 
(4) 142 J 
 
Q4 - 2024 (27 Jan Shift 2) 
During an adiabatic process, the pressure of a gas is found to be proportional to the cube 
of its absolute temperature. The ratio of 
?? ?? ?? ?? Cp/Cv for the gas is : 
(1) 
5
3
 
(2) 
3
2
 
(3) 
7
5
 
(4) 
9
7
 
 
Q5 - 2024 (29 Jan Shift 1) 
A thermodynamic system is taken from an original state A to an intermediate state B by a 
linear process as shown in the figure. It's volume is then reduced to the original value 
from B to C by an isobaric process. The total work done by the gas from ?? to ?? and ?? to ?? 
would be : 
 
[We changed options. In official NTA paper no option was correct.] 
(1) 33800 J 
(2) 2200 J 
(3) 600 J 
(4) 800 J 
 
Q6 - 2024 (30 Jan Shift 2) 
Choose the correct statement for processes A\& B shown in figure. 
 
(1) PV
?? =k for process B and PV = k for process A. 
(2) PV=k for process B and A. 
(3) 
?? ?? P
?? -1
= ?? for process ?? and ?? ?? = ?? for process ?? . 
(4) None of these 
 
Q7 - 2024 (31 Jan Shift 1) 
The given figure represents two isobaric processes for the same mass of an ideal gas, 
then 
Page 4


 
2024 
 
Q1 - 2024 (01 Feb Shift 1) 
The pressure and volume of an ideal gas are related as PV
3/2
= K (Constant). The work 
done by gas when the gas is taken from state ?? ?? 1
,?? 1
,?? 1
  to state B P
2
, V
2
, T
2
  is : 
[We modified question statement, In official NTA paper question was incomplete] 
(1) 2 P
1
 V
1
-P
2
 V
2
  
(2) 2 P
2
 V
2
-P
1
 V
1
  
(3) 2  P
1
 V
1
- P
2
 V
2
  
(4) 2 ?? 2
 ?? 2
-?? 1
 ?? 1
  
 
Q2 - 2024 (01 Feb Shift 2) 
A diatomic gas (?=1.4) does 200 J of work when it is expanded isobarically. The heat 
given to the gas in the process is: 
(1) 850 J 
(2) 800 J 
(3) 600 J 
(4) 700 J 
 
Q3 - 2024 (27 Jan Shift 1) 
0.08 kg air is heated at constant volume through 5
°
C. The specific heat of air at constant 
volume is 0.17kcal/kg
°
C and J =4.18 joule /cal. The change in its internal energy is 
approximately. 
(1) 318 J 
(2) 298 J 
(3) 284 J 
(4) 142 J 
 
Q4 - 2024 (27 Jan Shift 2) 
During an adiabatic process, the pressure of a gas is found to be proportional to the cube 
of its absolute temperature. The ratio of 
?? ?? ?? ?? Cp/Cv for the gas is : 
(1) 
5
3
 
(2) 
3
2
 
(3) 
7
5
 
(4) 
9
7
 
 
Q5 - 2024 (29 Jan Shift 1) 
A thermodynamic system is taken from an original state A to an intermediate state B by a 
linear process as shown in the figure. It's volume is then reduced to the original value 
from B to C by an isobaric process. The total work done by the gas from ?? to ?? and ?? to ?? 
would be : 
 
[We changed options. In official NTA paper no option was correct.] 
(1) 33800 J 
(2) 2200 J 
(3) 600 J 
(4) 800 J 
 
Q6 - 2024 (30 Jan Shift 2) 
Choose the correct statement for processes A\& B shown in figure. 
 
(1) PV
?? =k for process B and PV = k for process A. 
(2) PV=k for process B and A. 
(3) 
?? ?? P
?? -1
= ?? for process ?? and ?? ?? = ?? for process ?? . 
(4) None of these 
 
Q7 - 2024 (31 Jan Shift 1) 
The given figure represents two isobaric processes for the same mass of an ideal gas, 
then 
 
(1) ?? 2
= ?? 1
 
(2) ?? 2
> ?? 1
 
(3) ?? 1
= ?? 2
 
(4) ?? 1
> ?? 2
 
 
Answer Key 
Q1 (1) 
Q2 (4) 
Q5 (4) 
Q6 (1) 
Q3 (3) 
Q7 (4) 
 
 
Solutions 
 
Q1 
For PV
x
= constant 
If work done by gas is asked then 
W =
nR?T
1-x
 
Here x =
3
2
 
Page 5


 
2024 
 
Q1 - 2024 (01 Feb Shift 1) 
The pressure and volume of an ideal gas are related as PV
3/2
= K (Constant). The work 
done by gas when the gas is taken from state ?? ?? 1
,?? 1
,?? 1
  to state B P
2
, V
2
, T
2
  is : 
[We modified question statement, In official NTA paper question was incomplete] 
(1) 2 P
1
 V
1
-P
2
 V
2
  
(2) 2 P
2
 V
2
-P
1
 V
1
  
(3) 2  P
1
 V
1
- P
2
 V
2
  
(4) 2 ?? 2
 ?? 2
-?? 1
 ?? 1
  
 
Q2 - 2024 (01 Feb Shift 2) 
A diatomic gas (?=1.4) does 200 J of work when it is expanded isobarically. The heat 
given to the gas in the process is: 
(1) 850 J 
(2) 800 J 
(3) 600 J 
(4) 700 J 
 
Q3 - 2024 (27 Jan Shift 1) 
0.08 kg air is heated at constant volume through 5
°
C. The specific heat of air at constant 
volume is 0.17kcal/kg
°
C and J =4.18 joule /cal. The change in its internal energy is 
approximately. 
(1) 318 J 
(2) 298 J 
(3) 284 J 
(4) 142 J 
 
Q4 - 2024 (27 Jan Shift 2) 
During an adiabatic process, the pressure of a gas is found to be proportional to the cube 
of its absolute temperature. The ratio of 
?? ?? ?? ?? Cp/Cv for the gas is : 
(1) 
5
3
 
(2) 
3
2
 
(3) 
7
5
 
(4) 
9
7
 
 
Q5 - 2024 (29 Jan Shift 1) 
A thermodynamic system is taken from an original state A to an intermediate state B by a 
linear process as shown in the figure. It's volume is then reduced to the original value 
from B to C by an isobaric process. The total work done by the gas from ?? to ?? and ?? to ?? 
would be : 
 
[We changed options. In official NTA paper no option was correct.] 
(1) 33800 J 
(2) 2200 J 
(3) 600 J 
(4) 800 J 
 
Q6 - 2024 (30 Jan Shift 2) 
Choose the correct statement for processes A\& B shown in figure. 
 
(1) PV
?? =k for process B and PV = k for process A. 
(2) PV=k for process B and A. 
(3) 
?? ?? P
?? -1
= ?? for process ?? and ?? ?? = ?? for process ?? . 
(4) None of these 
 
Q7 - 2024 (31 Jan Shift 1) 
The given figure represents two isobaric processes for the same mass of an ideal gas, 
then 
 
(1) ?? 2
= ?? 1
 
(2) ?? 2
> ?? 1
 
(3) ?? 1
= ?? 2
 
(4) ?? 1
> ?? 2
 
 
Answer Key 
Q1 (1) 
Q2 (4) 
Q5 (4) 
Q6 (1) 
Q3 (3) 
Q7 (4) 
 
 
Solutions 
 
Q1 
For PV
x
= constant 
If work done by gas is asked then 
W =
nR?T
1-x
 
Here x =
3
2
 
? W=
P
2
 V
2
-P
1
 V
1
-
1
2
 
= 2 P
1
 V
1
-P
2
 V
2
  
Option (1) is correct 
If work done by external is asked then W = -2 P
1
 V
1
-P
2
 V
2
 …… Option (2) is correct 
 
Q2 
?? =1+
2
f
=1.4 ?
2
f
=0.4 
?f =5 
W =n?? ?T = 200 J 
Q = 
f+2
2
 nR?T 
=
7
2
×200 = 700 J 
 
Q3 
Q = ?U as work done is zero [constant volume] 
?U =ms?T 
= 0.08×(170×4.18)×5 
? 284 J 
 
Q4 
P ?T
3
?PT
-3
= constan 
PV
?? = const 
P 
nRT
P
 
?? = const 
P
1-?? T
?? = const 
PT
?? 1-?? = const 
?? 1-?? = -3 
?? = -3+3?? 
3=2?? 
?? =
3
2
 
 
Q5 
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FAQs on Thermodynamics: JEE Mains Previous Year Questions (2021-2024) - Physics for JEE Main & Advanced

1. What is the first law of thermodynamics?
Ans. The first law of thermodynamics states that energy cannot be created or destroyed, only transferred or converted from one form to another.
2. How is heat transfer different from work in thermodynamics?
Ans. Heat transfer is the transfer of thermal energy between two bodies due to a temperature difference, while work is the transfer of energy due to a force acting through a distance.
3. What is the difference between an open, closed, and isolated system in thermodynamics?
Ans. An open system can exchange both matter and energy with its surroundings, a closed system can exchange only energy, and an isolated system cannot exchange either matter or energy.
4. Can you explain the concept of enthalpy in thermodynamics?
Ans. Enthalpy is a measure of the total energy of a thermodynamic system, including its internal energy and the amount of energy required to create the system at constant pressure.
5. How does the second law of thermodynamics relate to entropy?
Ans. The second law of thermodynamics states that the total entropy of an isolated system can never decrease over time, indicating the direction of spontaneous processes towards increased disorder or randomness.
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