371245 In a given process of an ideal gas, \(dW = 0,\,\,dQ < 0\) then for the gas

371246 Assertion :
First law of thermodynamics is a restatement of the principle of conservation of energy
Reason :
Thermal energy is a thermodynamic variable.

371247 Assertion :
The heat supplied to a system is not always equal to the sum of increase in its internal energy and work done by the system.
Reason :
When a system changes from one thermal equilibrium state to another, some heat is absorbed by it.

371248 Given that \(1\;g\) of water in liquid phase has volume \(1\;c{m^3}\) and vapour phase \(1671\;c{m^3}\) at atmospheric pressure and the latent heat of vaporization of water is \(2256\;J/g\); the change in the internal energy in joules for \(1\;g\) of water at \(373\;K\) when it changes from liquid phase to vapour phase at the same temperature is:

371245 In a given process of an ideal gas, \(dW = 0,\,\,dQ < 0\) then for the gas

371246 Assertion :
First law of thermodynamics is a restatement of the principle of conservation of energy
Reason :
Thermal energy is a thermodynamic variable.

371247 Assertion :
The heat supplied to a system is not always equal to the sum of increase in its internal energy and work done by the system.
Reason :
When a system changes from one thermal equilibrium state to another, some heat is absorbed by it.

371248 Given that \(1\;g\) of water in liquid phase has volume \(1\;c{m^3}\) and vapour phase \(1671\;c{m^3}\) at atmospheric pressure and the latent heat of vaporization of water is \(2256\;J/g\); the change in the internal energy in joules for \(1\;g\) of water at \(373\;K\) when it changes from liquid phase to vapour phase at the same temperature is:

371245 In a given process of an ideal gas, \(dW = 0,\,\,dQ < 0\) then for the gas

371246 Assertion :
First law of thermodynamics is a restatement of the principle of conservation of energy
Reason :
Thermal energy is a thermodynamic variable.

371247 Assertion :
The heat supplied to a system is not always equal to the sum of increase in its internal energy and work done by the system.
Reason :
When a system changes from one thermal equilibrium state to another, some heat is absorbed by it.

371248 Given that \(1\;g\) of water in liquid phase has volume \(1\;c{m^3}\) and vapour phase \(1671\;c{m^3}\) at atmospheric pressure and the latent heat of vaporization of water is \(2256\;J/g\); the change in the internal energy in joules for \(1\;g\) of water at \(373\;K\) when it changes from liquid phase to vapour phase at the same temperature is:

371245 In a given process of an ideal gas, \(dW = 0,\,\,dQ < 0\) then for the gas

371246 Assertion :
First law of thermodynamics is a restatement of the principle of conservation of energy
Reason :
Thermal energy is a thermodynamic variable.

371247 Assertion :
The heat supplied to a system is not always equal to the sum of increase in its internal energy and work done by the system.
Reason :
When a system changes from one thermal equilibrium state to another, some heat is absorbed by it.

371248 Given that \(1\;g\) of water in liquid phase has volume \(1\;c{m^3}\) and vapour phase \(1671\;c{m^3}\) at atmospheric pressure and the latent heat of vaporization of water is \(2256\;J/g\); the change in the internal energy in joules for \(1\;g\) of water at \(373\;K\) when it changes from liquid phase to vapour phase at the same temperature is: