Uncategorised (JEE Advanced Physics by BM Sharma + GMP Solutions)
A particle located in a one-dimensional potential field has its potential energy function as U (x) a/x^4 – b/x^2, where a and b are positive constants. The position of equilibrium x
04
Oct
A particle located in a one-dimensional potential field has its potential energy function as U (x) a/x^4 – b/x^2, where a and b are positive constants. The position of equilibrium x A particle located in a one-dimensional potential field has its potential energy function as U (x) a/x^4 - b/x^2 where a and b are [...]
If the piston is moved so as to reduce the volume of gas by half keeping the temperature of gas constant, we know from the gas law that the pressure will be doubled. On microscopic level the increase in pressure on the piston is because
04
Oct
If the piston is moved so as to reduce the volume of gas by half keeping the temperature of gas constant, we know from the gas law that the pressure will be doubled. On microscopic level the increase in pressure on the piston is because If the piston is moved so as to reduce the [...]
If the piston is moved so as to reduce the volume of gas by half keeping the temperature of gas constant, we know from the gas law that the pressure will be doubled. On microscopic level the increase in pressure on the vertical side walls is because
04
Oct
If the piston is moved so as to reduce the volume of gas by half keeping the temperature of gas constant, we know from the gas law that the pressure will be doubled. On microscopic level the increase in pressure on the vertical side walls is because If the piston is moved so as to [...]
If the temperature of gas is doubles keeping volume constant , we know from the gas law that the pressure will be doubled. On microscopis level this increase in pressure is because
04
Oct
If the temperature of gas is doubles keeping volume constant , we know from the gas law that the pressure will be doubled. On microscopis level this increase in pressure is because If the temperature of gas is doubles keeping volume constant we know from the gas law that the pressure will be doubled. On [...]
The pressure of the gas can also be written in terms of momentum transferred per collision ( delta P ) and collision frequency ( f) on the wall of area A as
04
Oct
The pressure of the gas can also be written in terms of momentum transferred per collision ( delta P ) and collision frequency ( f) on the wall of area A as The pressure of the gas can also be written in terms of momentum transferred per collision ( delta P ) and collision frequency [...]
Suppose there are N molecules each of mass m, of an ideal gas in a container. The x component of velocity of a molecule is denoted by ux. The gas is enclosed using a horizontal piston of area A as shown.
04
Oct
Suppose there are N molecules each of mass m, of an ideal gas in a container. The x component of velocity of a molecule is denoted by ux. The gas is enclosed using a horizontal piston of area A as shown. of an ideal gas in a container. The x component of velocity of a [...]
Three closed vessels A,B and C are at the same temperature T and contain gases which obey the Maxwellian distribution of velocities. Vessel A contains only O2,B only N2 and C a mixture of equal quantities of O2 and N2. If the average speed of the O2 molecules in vessel A is V1, that of the N2 molecules in vessel B is V2, the average speed of the O2 molecules in vessel C is (where M is the mass of an oxygen molecules)
04
Oct
Three closed vessels A,B and C are at the same temperature T and contain gases which obey the Maxwellian distribution of velocities. Vessel A contains only O2,B only N2 and C a mixture of equal quantities of O2 and N2. If the average speed of the O2 molecules in vessel A is V1, that of [...]
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B and C are at the same temperature T and contain gases which obey the Maxwellian distribution of velocities. Vessel A contains only O2 ,
B only N2 and C a mixture of equal quantities of O2 and N2. If the average speed of the O2 molecules in vessel A is V1 ,
that of the N2 molecules in vessel B is V2 ,
the average speed of the O2 molecules in vessel C is (where M is the mass of an oxygen molecules) ,
Three closed vessels A ,
A vessel contains a mixture of one mole of oxygen and two moles of nitrogen at 300 k. THe ratio of the average rotational kinetic energy per o2 molecule to that per N2 molecule is
04
Oct
A vessel contains a mixture of one mole of oxygen and two moles of nitrogen at 300 k. THe ratio of the average rotational kinetic energy per o2 molecule to that per N2 molecule is A vessel contains a mixture of one mole of oxygen and two moles of nitrogen at 300 k. THe ratio [...]
At which of the following temperature would the molecules of a gas have twice the average kinetic energy they have at 20 degree C
04
Oct
At which of the following temperature would the molecules of a gas have twice the average kinetic energy they have at 20 degree C At which of the following temperature would the molecules of a gas have twice the average kinetic energy they have at 20 degree C October 4, 2020 Category: Uncategorised (JEE Advanced [...]
The root meanm square speed of the molecules of a diatomic gas is v. When the temperature is doubled, the molecules dissociate into two atoms. The new root mean square speed of the atom is
04
Oct
The root meanm square speed of the molecules of a diatomic gas is v. When the temperature is doubled, the molecules dissociate into two atoms. The new root mean square speed of the atom is the molecules dissociate into two atoms. The new root mean square speed of the atom is The root meanm square [...]