A nitrogen molecules at teh surface of earth happens to have the rms speed for that gas at `0^(@)`. If it were to go straight up without colliding with other molecules, how high would it rise? Mass of nitrogen molecules, `m = 4.65 xx 10^(26)lg, k=1.38 xx 10^(-23)J "molecule"^(-1) K^(-1)`.

A nitrogen molecule at the surface of earth happens to have 'rms' speed for that gas at 0^(@)C . If it were to go straight up without colliding with other molecules, how high would it rise? (Mass of nitrogen molecule, m=4.65xx10^(-26) kg,R=8.3J//mol//K )

A gas molecule at the surface of earth happens to have the rms speed for the gas at 0^(@)C . Suppose it went straight up without colliding with other molecules, how high it would rise? Mass of the molecule is 4.65 xx 10^(-26) kg . Boltzmann's constant = 1.38 xx 10^(-23) JK^(-1) .

The velocity of a nitrogen molecule on the earth surface is equal to its rms speed at 0^@C IF the molecule moves straights upwards without any collisions with other molecules, determine the height up to which the molecule would rise. The mass of a nitrogen molecule m=4.65 times 10^-26 kg and k=1.38 times 10^-23 J.K^-1

If nitrogen gas molecule goes straight up with its rms speed at 0^@ C from the surface of the earth and there are no collisions with other molecules, then it will rise to an approximate height of.

If nitrogen gas molecule goes straight up with its rms speed at 0^@ C from the surface of the earth and there are no collisions with other molecules, then it will rise to an approximate height of.

Calculate the average kinetic energy of hydrogen molecule at 0^@ C . Given k_(B) = 1.38 xx 10^(-23) JK^(-1) .

Calculate the average kinetic energy of hydrogen molecule at 0^@ C . Given k_(B) = 1.38 xx 10^(-23) JK^(-1) .

At what temperature the kinetic energy of a molecule will be equal to 2.8 xx 10^(-20) J ? Boltzmann constant (k_(B)) = 1.4 xx 10^(-23) J "molecule"^(-1)K^(-1)

At what temperature will the rms speed of oxygen molecules become just sufficient for escaping from the Earth's atmosphere ? (Given : Mass of oxygen molecule (m) = 2.76 xx 10^(-26) kg , Boltzmann's constant k_B = 1.38 xx 10^(-23) JK^(-1) )