148398 A closed gas cylinder is divided into two parts by a piston held tight. The pressure and volume of gas in two parts respectively are $(P, 5 V)$ and $(10 \mathrm{P}, \mathrm{V})$. If now the piston is left free and the system undergoes isothermal process, then the volume of the gas in two parts respectively are

148403 One mole of $\mathrm{O}_{2}$ gas having a volume equal to 22.4 Litres at $0^{\circ} \mathrm{C}$ and 1 atmospheric pressure in compressed isothermally so that its volume reduces to 11.2 litres. The work done in this process is-

148399 Which of the accompanying $P-V$ diagrams best represents an isothermal process?

148404 Assertion: The isothermal curves intersect each other at a certain point.
Reason: The isothermal changes takes place rapidly, so the isothermal curves have very little slope.

148406 The change in the entropy of a 1 mole of an ideal gas which went through an isothermal process from an initial state $\left(P_{1}, V_{1}, T\right)$ to the final state $\left(P_{2}, V_{2}, T\right)$ is equal to

148398 A closed gas cylinder is divided into two parts by a piston held tight. The pressure and volume of gas in two parts respectively are $(P, 5 V)$ and $(10 \mathrm{P}, \mathrm{V})$. If now the piston is left free and the system undergoes isothermal process, then the volume of the gas in two parts respectively are

148403 One mole of $\mathrm{O}_{2}$ gas having a volume equal to 22.4 Litres at $0^{\circ} \mathrm{C}$ and 1 atmospheric pressure in compressed isothermally so that its volume reduces to 11.2 litres. The work done in this process is-

148399 Which of the accompanying $P-V$ diagrams best represents an isothermal process?

148404 Assertion: The isothermal curves intersect each other at a certain point.
Reason: The isothermal changes takes place rapidly, so the isothermal curves have very little slope.

148406 The change in the entropy of a 1 mole of an ideal gas which went through an isothermal process from an initial state $\left(P_{1}, V_{1}, T\right)$ to the final state $\left(P_{2}, V_{2}, T\right)$ is equal to

148398 A closed gas cylinder is divided into two parts by a piston held tight. The pressure and volume of gas in two parts respectively are $(P, 5 V)$ and $(10 \mathrm{P}, \mathrm{V})$. If now the piston is left free and the system undergoes isothermal process, then the volume of the gas in two parts respectively are

148403 One mole of $\mathrm{O}_{2}$ gas having a volume equal to 22.4 Litres at $0^{\circ} \mathrm{C}$ and 1 atmospheric pressure in compressed isothermally so that its volume reduces to 11.2 litres. The work done in this process is-

148399 Which of the accompanying $P-V$ diagrams best represents an isothermal process?

148404 Assertion: The isothermal curves intersect each other at a certain point.
Reason: The isothermal changes takes place rapidly, so the isothermal curves have very little slope.

148406 The change in the entropy of a 1 mole of an ideal gas which went through an isothermal process from an initial state $\left(P_{1}, V_{1}, T\right)$ to the final state $\left(P_{2}, V_{2}, T\right)$ is equal to

148398 A closed gas cylinder is divided into two parts by a piston held tight. The pressure and volume of gas in two parts respectively are $(P, 5 V)$ and $(10 \mathrm{P}, \mathrm{V})$. If now the piston is left free and the system undergoes isothermal process, then the volume of the gas in two parts respectively are

148403 One mole of $\mathrm{O}_{2}$ gas having a volume equal to 22.4 Litres at $0^{\circ} \mathrm{C}$ and 1 atmospheric pressure in compressed isothermally so that its volume reduces to 11.2 litres. The work done in this process is-

148399 Which of the accompanying $P-V$ diagrams best represents an isothermal process?

148404 Assertion: The isothermal curves intersect each other at a certain point.
Reason: The isothermal changes takes place rapidly, so the isothermal curves have very little slope.

148406 The change in the entropy of a 1 mole of an ideal gas which went through an isothermal process from an initial state $\left(P_{1}, V_{1}, T\right)$ to the final state $\left(P_{2}, V_{2}, T\right)$ is equal to

148398 A closed gas cylinder is divided into two parts by a piston held tight. The pressure and volume of gas in two parts respectively are $(P, 5 V)$ and $(10 \mathrm{P}, \mathrm{V})$. If now the piston is left free and the system undergoes isothermal process, then the volume of the gas in two parts respectively are

148403 One mole of $\mathrm{O}_{2}$ gas having a volume equal to 22.4 Litres at $0^{\circ} \mathrm{C}$ and 1 atmospheric pressure in compressed isothermally so that its volume reduces to 11.2 litres. The work done in this process is-

148399 Which of the accompanying $P-V$ diagrams best represents an isothermal process?

148404 Assertion: The isothermal curves intersect each other at a certain point.
Reason: The isothermal changes takes place rapidly, so the isothermal curves have very little slope.

148406 The change in the entropy of a 1 mole of an ideal gas which went through an isothermal process from an initial state $\left(P_{1}, V_{1}, T\right)$ to the final state $\left(P_{2}, V_{2}, T\right)$ is equal to