Find the typical de Broglie wavelength associated with a He atom in helium gas at room temperature `(27^(@)C)` and 1 atm pressure, and compare it with the mean separation between two atoms under these conditions.

Find the ratio of de Broglie wavelength of molecules of hydrogen and helium which are at temperatures 27^(@)C and 127^(@)C respectively

Obtain the de Broglie wavelength associated with thermal neutrons at room temperature (27^(@)C) . Hence explain why a fast neutron beam needs to be thermalised with the environment before it can be used for neutron diffraction experiments .

Compute the typical de Broglie wavelength of an electron in a metal at 27^(@)C and compare it with the mean separation between two electrons in a metal which is given to be about 2 xx 10^(-10) m.

The volume of a gas measured at 27^@C and 1 atm pressure is 10 litres. To reduce the volume to 5 litres at 1 atm pressure, the temperature required is

The weight of 350 ml of a diatomic gas is 1 gram at 0^@C and 2 atm. pressure. The weight of one atom in grams is

Estimate the average thermal energy of a helium atom at (i) room temperature ( 27 ^(@)C ). (ii) the temperature on the surface of the Sun (6000 K), (iii) the temperature of 10 million kelvin (the typical core temperature in the case of a star).

One litre of Helium under a pressure of 1 atm and at a temperature of 0^(@) C is heated until the pressure becomes 1/3 and volume are doubled. The final temperature attained by the gas is