139037 An experiment is carried on a fixed amount of gas at different temperature and at high pressure such that it deviates from the ideal gas behaviour. The variation of $\frac{p V}{R T}$ with $p$ is shown in the diagram. The correct variation will correspond to

139038 The equation $\left(p+\frac{a}{V^{2}}\right)(V-b)=$ constant. The unit of a is

139039 Air is filled in a bottle at atmospheric pressure and it is corked at $35^{\circ} \mathrm{C}$. If the cork can come out at 3 atmospheric pressure, then upto what temperature should the bottle be heated in order to remove the cork.

139040 A partition divides a container having insulated walls into two compartments. The same gas fills the two compartments (see figure). The ratio of the number of molecules in compartments I and $\mathrm{II}$ is

139041 Air is pumped into an automobile tube upto a pressure of $200 \mathrm{kPa}$ in the morning when the air temperature is $22^{\circ} \mathrm{C}$. During the day, temperature rises to $42^{\circ} \mathrm{C}$ and the tube expands by $2 \%$. The pressure of the air in the tube at this temperature, will be approximately

139037 An experiment is carried on a fixed amount of gas at different temperature and at high pressure such that it deviates from the ideal gas behaviour. The variation of $\frac{p V}{R T}$ with $p$ is shown in the diagram. The correct variation will correspond to

139038 The equation $\left(p+\frac{a}{V^{2}}\right)(V-b)=$ constant. The unit of a is

139039 Air is filled in a bottle at atmospheric pressure and it is corked at $35^{\circ} \mathrm{C}$. If the cork can come out at 3 atmospheric pressure, then upto what temperature should the bottle be heated in order to remove the cork.

139040 A partition divides a container having insulated walls into two compartments. The same gas fills the two compartments (see figure). The ratio of the number of molecules in compartments I and $\mathrm{II}$ is

139041 Air is pumped into an automobile tube upto a pressure of $200 \mathrm{kPa}$ in the morning when the air temperature is $22^{\circ} \mathrm{C}$. During the day, temperature rises to $42^{\circ} \mathrm{C}$ and the tube expands by $2 \%$. The pressure of the air in the tube at this temperature, will be approximately

139037 An experiment is carried on a fixed amount of gas at different temperature and at high pressure such that it deviates from the ideal gas behaviour. The variation of $\frac{p V}{R T}$ with $p$ is shown in the diagram. The correct variation will correspond to

139038 The equation $\left(p+\frac{a}{V^{2}}\right)(V-b)=$ constant. The unit of a is

139039 Air is filled in a bottle at atmospheric pressure and it is corked at $35^{\circ} \mathrm{C}$. If the cork can come out at 3 atmospheric pressure, then upto what temperature should the bottle be heated in order to remove the cork.

139040 A partition divides a container having insulated walls into two compartments. The same gas fills the two compartments (see figure). The ratio of the number of molecules in compartments I and $\mathrm{II}$ is

139041 Air is pumped into an automobile tube upto a pressure of $200 \mathrm{kPa}$ in the morning when the air temperature is $22^{\circ} \mathrm{C}$. During the day, temperature rises to $42^{\circ} \mathrm{C}$ and the tube expands by $2 \%$. The pressure of the air in the tube at this temperature, will be approximately

139037 An experiment is carried on a fixed amount of gas at different temperature and at high pressure such that it deviates from the ideal gas behaviour. The variation of $\frac{p V}{R T}$ with $p$ is shown in the diagram. The correct variation will correspond to

139038 The equation $\left(p+\frac{a}{V^{2}}\right)(V-b)=$ constant. The unit of a is

139039 Air is filled in a bottle at atmospheric pressure and it is corked at $35^{\circ} \mathrm{C}$. If the cork can come out at 3 atmospheric pressure, then upto what temperature should the bottle be heated in order to remove the cork.

139040 A partition divides a container having insulated walls into two compartments. The same gas fills the two compartments (see figure). The ratio of the number of molecules in compartments I and $\mathrm{II}$ is

139041 Air is pumped into an automobile tube upto a pressure of $200 \mathrm{kPa}$ in the morning when the air temperature is $22^{\circ} \mathrm{C}$. During the day, temperature rises to $42^{\circ} \mathrm{C}$ and the tube expands by $2 \%$. The pressure of the air in the tube at this temperature, will be approximately

139037 An experiment is carried on a fixed amount of gas at different temperature and at high pressure such that it deviates from the ideal gas behaviour. The variation of $\frac{p V}{R T}$ with $p$ is shown in the diagram. The correct variation will correspond to

139038 The equation $\left(p+\frac{a}{V^{2}}\right)(V-b)=$ constant. The unit of a is

139039 Air is filled in a bottle at atmospheric pressure and it is corked at $35^{\circ} \mathrm{C}$. If the cork can come out at 3 atmospheric pressure, then upto what temperature should the bottle be heated in order to remove the cork.

139040 A partition divides a container having insulated walls into two compartments. The same gas fills the two compartments (see figure). The ratio of the number of molecules in compartments I and $\mathrm{II}$ is

139041 Air is pumped into an automobile tube upto a pressure of $200 \mathrm{kPa}$ in the morning when the air temperature is $22^{\circ} \mathrm{C}$. During the day, temperature rises to $42^{\circ} \mathrm{C}$ and the tube expands by $2 \%$. The pressure of the air in the tube at this temperature, will be approximately