Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions)
During the process AB of an ideal gas (1) work done on the gas is zero (2) density of the gas is constant
29
Oct
During the process AB of an ideal gas (1) work done on the gas is zero (2) density of the gas is constant During the process AB of an ideal gas (1) work done on the gas is zero (2) density of the gas is constant October 29, 2020 Category: Uncategorised (JEE Advanced Physics by [...]
A gas undergoes change in its state from position A to position B via three different paths as shown in the given figure. Select the correct alternatives;
29
Oct
A gas undergoes change in its state from position A to position B via three different paths as shown in the given figure. Select the correct alternatives; A gas undergoes change in its state from position A to position B via three different paths as shown in the given figure. Select the correct alternatives; October [...]
In the cyclic process shown in the given figure, delta U1 and delta U2 represent the change in internal energy in process A and B, respectively. If delta Q be the net heat given to
29
Oct
In the cyclic process shown in the given figure, delta U1 and delta U2 represent the change in internal energy in process A and B, respectively. If delta Q be the net heat given to delta U1 and delta U2 represent the change in internal energy in process A and B In the cyclic process [...]
Select the correct alternatives for a ideal gas: (1) The change in internal energy in a constant pressure process from temperature T1 to T2 is equal to nCv (T2 – T1), where Cv
29
Oct
Select the correct alternatives for a ideal gas: (1) The change in internal energy in a constant pressure process from temperature T1 to T2 is equal to nCv (T2 – T1), where Cv Select the correct alternatives for a ideal gas: (1) The change in internal energy in a constant pressure process from temperature T1 [...]
The molar heat capacity for an ideal gas cannot (1) be negative (2) be equal to either Cv or Cp
29
Oct
The molar heat capacity for an ideal gas cannot (1) be negative (2) be equal to either Cv or Cp The molar heat capacity for an ideal gas cannot (1) be negative (2) be equal to either Cv or Cp October 29, 2020 Category: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
At ordinary temperatures, the molecules of an ideal gas have only translational and rotational kinetic energies. At high temperatures they may also have vibrational energy . As
29
Oct
At ordinary temperatures, the molecules of an ideal gas have only translational and rotational kinetic energies. At high temperatures they may also have vibrational energy . As At ordinary temperatures the molecules of an ideal gas have only translational and rotational kinetic energies. At high temperatures they may also have vibrational energy . As October [...]
In previous problem, fine the value of gama = Cp / Cv:
29
Oct
In previous problem, fine the value of gama = Cp / Cv: fine the value of gama = Cp / Cv: In previous problem October 29, 2020 Category: Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions) ,
The ratio of heat absorbed and work done by the gas in the process, as shown is 5/2. Find the parameters representing x and y axes:
29
Oct
The ratio of heat absorbed and work done by the gas in the process, as shown is 5/2. Find the parameters representing x and y axes: as shown is 5/2. Find the parameters representing x and y axes: The ratio of heat absorbed and work done by the gas in the process October 29, 2020 [...]
Find the pressure P, in the diagram as shown, of monatomic gas of one mole in the process ABC if delta U/ delta W = 6/7 :
29
Oct
Find the pressure P, in the diagram as shown, of monatomic gas of one mole in the process ABC if delta U/ delta W = 6/7 : Find the pressure P In the diagram as shown of monatomic gas of one mole in the process ABC if delta U/ delta W = 6/7 : October [...]
One mole of an ideal gas is taken along the process in which PV^x = constant. The graph shown represents the variation of molar heat capacity of such a gas with respect to ‘x’.
29
Oct
One mole of an ideal gas is taken along the process in which PV^x = constant. The graph shown represents the variation of molar heat capacity of such a gas with respect to ‘x’. One mole of an ideal gas is taken along the process in which PV^x = constant. The graph shown represents the [...]