148378 A diatomic gas $\left(C_{p}=\frac{7}{2} R\right)$ does $200 \mathrm{~J}$ of work when it is expanded isobarically. The heat given to the gas in the process is

148379 A monoatomic gas does $100 \mathrm{~J}$ of work when it is expanded isobarically. How much of heat is given to the gas in the process

148380 If the temperature of $50 \mathrm{ml}$ of gas at $27^{\circ} \mathrm{C}$ raised to $57^{\circ} \mathrm{C}$ at constant pressure, the final volume of the gas is

148381 A thermodynamic system is taken from an original state $D$ to an intermediate state $E$ by linear process shown in the figure. Its volume is then reduced to the original volume from $E$ to $F$ by an isobaric process. The total work done by the gas from $D$ to $E$ to $F$ will be.

148378 A diatomic gas $\left(C_{p}=\frac{7}{2} R\right)$ does $200 \mathrm{~J}$ of work when it is expanded isobarically. The heat given to the gas in the process is

148379 A monoatomic gas does $100 \mathrm{~J}$ of work when it is expanded isobarically. How much of heat is given to the gas in the process

148380 If the temperature of $50 \mathrm{ml}$ of gas at $27^{\circ} \mathrm{C}$ raised to $57^{\circ} \mathrm{C}$ at constant pressure, the final volume of the gas is

148381 A thermodynamic system is taken from an original state $D$ to an intermediate state $E$ by linear process shown in the figure. Its volume is then reduced to the original volume from $E$ to $F$ by an isobaric process. The total work done by the gas from $D$ to $E$ to $F$ will be.

148378 A diatomic gas $\left(C_{p}=\frac{7}{2} R\right)$ does $200 \mathrm{~J}$ of work when it is expanded isobarically. The heat given to the gas in the process is

148379 A monoatomic gas does $100 \mathrm{~J}$ of work when it is expanded isobarically. How much of heat is given to the gas in the process

148380 If the temperature of $50 \mathrm{ml}$ of gas at $27^{\circ} \mathrm{C}$ raised to $57^{\circ} \mathrm{C}$ at constant pressure, the final volume of the gas is

148381 A thermodynamic system is taken from an original state $D$ to an intermediate state $E$ by linear process shown in the figure. Its volume is then reduced to the original volume from $E$ to $F$ by an isobaric process. The total work done by the gas from $D$ to $E$ to $F$ will be.

148378 A diatomic gas $\left(C_{p}=\frac{7}{2} R\right)$ does $200 \mathrm{~J}$ of work when it is expanded isobarically. The heat given to the gas in the process is

148379 A monoatomic gas does $100 \mathrm{~J}$ of work when it is expanded isobarically. How much of heat is given to the gas in the process

148380 If the temperature of $50 \mathrm{ml}$ of gas at $27^{\circ} \mathrm{C}$ raised to $57^{\circ} \mathrm{C}$ at constant pressure, the final volume of the gas is

148381 A thermodynamic system is taken from an original state $D$ to an intermediate state $E$ by linear process shown in the figure. Its volume is then reduced to the original volume from $E$ to $F$ by an isobaric process. The total work done by the gas from $D$ to $E$ to $F$ will be.