148492 A mixture of two non-reactive ideal gases is enclosed in a vessel consisting of one mole of a monoatomic gas ' $A$ ' and ' $n$ ' moles of diatomic gas ' $B$ ' at a temperature ' $T$ '. If the adiabatic constant of the gaseous mixture is $\frac{13}{9}$, then the value of ' $n$ ' is.

148493 5.6 litre of helium gas at STP is adiabatically compressed to 0.7 litre. If the initial temperature of the gas is $\mathrm{T} K$, work done in the process is ( $R$ is universal gas constant in SI units)

148494 Starting with the same initial conditions, an ideal gas expands from volume $V_{1}$ to $V_{2}$ in three different ways. The work done by the gas is $W_{1}$ if the process is purely isothermal, $W_{2}$ if purely isobaric and $W_{3}$ if purely adiabatic. The

148495 An ideal gas is compressed to half its initial volume by means of several process. Which of the process results in the maximum work done on the gas?

148498 In which of the following processes, heat is neither absorbed nor released by a system?

148492 A mixture of two non-reactive ideal gases is enclosed in a vessel consisting of one mole of a monoatomic gas ' $A$ ' and ' $n$ ' moles of diatomic gas ' $B$ ' at a temperature ' $T$ '. If the adiabatic constant of the gaseous mixture is $\frac{13}{9}$, then the value of ' $n$ ' is.

148493 5.6 litre of helium gas at STP is adiabatically compressed to 0.7 litre. If the initial temperature of the gas is $\mathrm{T} K$, work done in the process is ( $R$ is universal gas constant in SI units)

148494 Starting with the same initial conditions, an ideal gas expands from volume $V_{1}$ to $V_{2}$ in three different ways. The work done by the gas is $W_{1}$ if the process is purely isothermal, $W_{2}$ if purely isobaric and $W_{3}$ if purely adiabatic. The

148495 An ideal gas is compressed to half its initial volume by means of several process. Which of the process results in the maximum work done on the gas?

148498 In which of the following processes, heat is neither absorbed nor released by a system?

148492 A mixture of two non-reactive ideal gases is enclosed in a vessel consisting of one mole of a monoatomic gas ' $A$ ' and ' $n$ ' moles of diatomic gas ' $B$ ' at a temperature ' $T$ '. If the adiabatic constant of the gaseous mixture is $\frac{13}{9}$, then the value of ' $n$ ' is.

148493 5.6 litre of helium gas at STP is adiabatically compressed to 0.7 litre. If the initial temperature of the gas is $\mathrm{T} K$, work done in the process is ( $R$ is universal gas constant in SI units)

148494 Starting with the same initial conditions, an ideal gas expands from volume $V_{1}$ to $V_{2}$ in three different ways. The work done by the gas is $W_{1}$ if the process is purely isothermal, $W_{2}$ if purely isobaric and $W_{3}$ if purely adiabatic. The

148495 An ideal gas is compressed to half its initial volume by means of several process. Which of the process results in the maximum work done on the gas?

148498 In which of the following processes, heat is neither absorbed nor released by a system?

148492 A mixture of two non-reactive ideal gases is enclosed in a vessel consisting of one mole of a monoatomic gas ' $A$ ' and ' $n$ ' moles of diatomic gas ' $B$ ' at a temperature ' $T$ '. If the adiabatic constant of the gaseous mixture is $\frac{13}{9}$, then the value of ' $n$ ' is.

148493 5.6 litre of helium gas at STP is adiabatically compressed to 0.7 litre. If the initial temperature of the gas is $\mathrm{T} K$, work done in the process is ( $R$ is universal gas constant in SI units)

148494 Starting with the same initial conditions, an ideal gas expands from volume $V_{1}$ to $V_{2}$ in three different ways. The work done by the gas is $W_{1}$ if the process is purely isothermal, $W_{2}$ if purely isobaric and $W_{3}$ if purely adiabatic. The

148495 An ideal gas is compressed to half its initial volume by means of several process. Which of the process results in the maximum work done on the gas?

148498 In which of the following processes, heat is neither absorbed nor released by a system?

148492 A mixture of two non-reactive ideal gases is enclosed in a vessel consisting of one mole of a monoatomic gas ' $A$ ' and ' $n$ ' moles of diatomic gas ' $B$ ' at a temperature ' $T$ '. If the adiabatic constant of the gaseous mixture is $\frac{13}{9}$, then the value of ' $n$ ' is.

148493 5.6 litre of helium gas at STP is adiabatically compressed to 0.7 litre. If the initial temperature of the gas is $\mathrm{T} K$, work done in the process is ( $R$ is universal gas constant in SI units)

148494 Starting with the same initial conditions, an ideal gas expands from volume $V_{1}$ to $V_{2}$ in three different ways. The work done by the gas is $W_{1}$ if the process is purely isothermal, $W_{2}$ if purely isobaric and $W_{3}$ if purely adiabatic. The

148495 An ideal gas is compressed to half its initial volume by means of several process. Which of the process results in the maximum work done on the gas?

148498 In which of the following processes, heat is neither absorbed nor released by a system?