148357 One mole of an ideal diatomic gas undergoes a transition from $A$ to $B$ along a path $A B$ as shown in the figure.

The change in internal energy of the gas during the transition is

148358 The volume (V) of a monoatomic gas varies with its temperature (T), as shown in the graph. The ratio of work done by the gas, to the heat absorbed by it, when it undergoes a change from state $A$ to state $B$, is

148359 Thermodynamic processes are indicated in the following diagram

Match the following :
| | Column-1 | | Column-II |
| :--- | :--- | :--- | :---: |
| P. | Process I | a. | Adiabatic |
| O. | Process II | b. | Isobaric |
| R. | Process III | c. | Isochoric |
| S. | Process IV | d. | Isothermal |

148360 The $\mathbf{P}-\mathrm{V}$ diagram for an ideal gas in piston cylinder assembly undergoing a thermodynamic process is shown in the figure. The process is

148357 One mole of an ideal diatomic gas undergoes a transition from $A$ to $B$ along a path $A B$ as shown in the figure.

The change in internal energy of the gas during the transition is

148358 The volume (V) of a monoatomic gas varies with its temperature (T), as shown in the graph. The ratio of work done by the gas, to the heat absorbed by it, when it undergoes a change from state $A$ to state $B$, is

148359 Thermodynamic processes are indicated in the following diagram

Match the following :
| | Column-1 | | Column-II |
| :--- | :--- | :--- | :---: |
| P. | Process I | a. | Adiabatic |
| O. | Process II | b. | Isobaric |
| R. | Process III | c. | Isochoric |
| S. | Process IV | d. | Isothermal |

148360 The $\mathbf{P}-\mathrm{V}$ diagram for an ideal gas in piston cylinder assembly undergoing a thermodynamic process is shown in the figure. The process is

148357 One mole of an ideal diatomic gas undergoes a transition from $A$ to $B$ along a path $A B$ as shown in the figure.

The change in internal energy of the gas during the transition is

148358 The volume (V) of a monoatomic gas varies with its temperature (T), as shown in the graph. The ratio of work done by the gas, to the heat absorbed by it, when it undergoes a change from state $A$ to state $B$, is

148359 Thermodynamic processes are indicated in the following diagram

Match the following :
| | Column-1 | | Column-II |
| :--- | :--- | :--- | :---: |
| P. | Process I | a. | Adiabatic |
| O. | Process II | b. | Isobaric |
| R. | Process III | c. | Isochoric |
| S. | Process IV | d. | Isothermal |

148360 The $\mathbf{P}-\mathrm{V}$ diagram for an ideal gas in piston cylinder assembly undergoing a thermodynamic process is shown in the figure. The process is

148357 One mole of an ideal diatomic gas undergoes a transition from $A$ to $B$ along a path $A B$ as shown in the figure.

The change in internal energy of the gas during the transition is

148358 The volume (V) of a monoatomic gas varies with its temperature (T), as shown in the graph. The ratio of work done by the gas, to the heat absorbed by it, when it undergoes a change from state $A$ to state $B$, is

148359 Thermodynamic processes are indicated in the following diagram

Match the following :
| | Column-1 | | Column-II |
| :--- | :--- | :--- | :---: |
| P. | Process I | a. | Adiabatic |
| O. | Process II | b. | Isobaric |
| R. | Process III | c. | Isochoric |
| S. | Process IV | d. | Isothermal |

148360 The $\mathbf{P}-\mathrm{V}$ diagram for an ideal gas in piston cylinder assembly undergoing a thermodynamic process is shown in the figure. The process is