Q. No.A vessel containing 5 litres of a gas at 0.8 m pressure is connected to an evacuated vessel of volume 3 litres. The resultant pressure inside will be (assuming whole system to be isolated)
(1) 4/3 m
(2) 0.5 m
(3) 2.0 m
(4) 3/4 m
1. \(-\gamma^{\frac{1}{2}}\frac{\Delta V}{V}\)
2. \(-\frac{\Delta V}{V}\)
3. \(-\gamma\frac{\Delta V}{V}\)
4. \(-\gamma^2\frac{\Delta V}{V}\)
If a gas is heated at constant pressure, its isothermal compressibility
(1) Remains constant
(2) Increases linearly with temperature
(3) Decreases linearly with temperature
(4) Decreases inversely with temperature
In isothermal expansion, the pressure is determined by:
| 1. | Temperature only |
| 2. | Compressibility only |
| 3. | Both temperature and compressibility |
| 4. | None of these |
In an isothermal change, an ideal gas obeys:
| 1. | Boyle's law | 2. | Charles law |
| 3. | Gay-Lussac law | 4. | None of the above |
| 1. | will be the same in both \(A\) and \(B\). |
| 2. | will be zero in both the gases. |
| 3. | of \(B\) will be more than that of \(A\). |
| 4. | of \(A\) will be more than that of \(B\). |
The specific heat of a gas in an isothermal process is:
| 1. | Infinite | 2. | Zero |
| 3. | Negative | 4. | Remains constant |
The latent heat of vaporisation of water is 2240 J/gm. If the work done in the process of expansion of 1 g is 168 J, then increase in internal energy is
(1) 2408 J
(2) 2240 J
(3) 2072 J
(4) 1904 J
A cylinder fitted with a piston contains 0.2 moles of air at temperature 27°C. The piston is pushed so slowly that the air within the cylinder remains in thermal equilibrium with the surroundings. Find the approximate work done by the system if the final volume is twice the initial volume
(1) 543 J
(2) 345 J
(3) 453 J
(4) 600 J
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