For adiabatic processes $\left( {\gamma = \frac{{{C_p}}}{{{C_v}}}} \right)$
Easy
Download our appand get started for free
Experience the future of education. Simply download our apps or reach out to us for more information. Let's shape the future of learning together!No signup needed.*
Similar Questions
- 1A system is given $300$ calories of heat and it does $600$ joules of work. How much does the internal energy of the system change in this process? $( J =4.18$ $Joules / cal )$ (in joule)View Solution
- 2One mole of an ideal gas $(\gamma = 1.4)$ is adiabatically compressed so that its temperature rises from $27\,^oC$ to $35\,^oC$ . The change in the internal energy of the gas is .... $J$. (given $R = 8.3\,J/mole-K$ )View Solution
- 3View SolutionWork done on or by a gas, in general depends upon the
- 4An engine operates by taking a monatomic ideal gas through the cycle shown in the figure. The percentage efficiency of the engine is close to $.......\%$View Solution
- 5The efficiency of Carnot engine when source temperature is $T_1$ and sink temperature is $T_2$ will beView Solution
- 6Determine coefficient of performance of given temperature limit.View Solution
$T_{1}=27^{\circ} C$ [outside fridge]
$T_{2}=-23^{\circ} C$ [inside fridge]
- 7During the melting of a slab of ice at $273\, K$ at atmospheric pressureView Solution
- 8View SolutionWhen heat in given to a gas in an isobaric process, then
- 9$Assertion :$ In adiabatic compression, the internal energy and temperature of the system get decreased.View Solution
$Reason :$ The adiabatic compression is a slow process. - 10In a thermodynamic process pressure of a fixed mass of a gas is changed in such a manner that the gas releases $20 \,J$ of heat when $8 \,J$ of work was done on the gas. If the initial internal energy of the gas was $30 \,J$, then the final internal energy will be ........ $J$View Solution