The mass of a molecule of gas is 4 xx 10...

The mass of a molecule of gas is `4 xx 10^(-30) kg. If 10^(23)` molecules strike the area of 4 square meter with the velocity `10^(7)` m/sec, then what is the pressure exerted on the surface ?
(Assuming perfectly elastic collision and they are hitting perpendicularly)

Similar Questions

Explore conceptually related problems

The mass of hydrogen molecule is 3.23 xx 10^(23) hydrogen molecules strike 2 cm^(2) of a wall per second at an angle of 45^(@) with the normal when moving with a speed of 10^(5) cm s^(-1) , what pressure do they exert on the wall ? Assume collision to be elasitc.

The mass of a hydrogen molecule is 3.32xx10^(-27) kg. If 10^(23) hydrogen molecules strike, per second, a fixed wall of area 2 cm^(2) at an angle of 45^(@) to the normal, and rebound elastically with a speed of 10^(3) m/s, then the pressure on the wall is nearly

The density of a gas is 6xx 10^(-2 )kg//m^(3) and the root mean square velocity of the gas molecules is 500 m/s. The pressure exerted by the gas on the walls of the vessel is

The mass of hydrogen molecule is 3.32xx10^(-27) kg. If 10^(23) hydrogen molecules strikes per second at 2 cm^(2) area of a rigid wall at an angle of 45^(@) from the normal and rebound back with a speed of 1000 ms^(-1) , then the pressure exerted on the wall is

A container of just 10cc has 2.69 xx 10^20 gas molecules at 0^@C . What is the pressure exerted?

The mass of a molecule of gas is `4 xx 10^(-30) kg. If 10^(23)` molecules strike the area of 4 square meter with the velocity `10^(7)` m/sec, then what is the pressure exerted on the surface ? (Assuming perfectly elastic collision and they are hitting perpendicularly)

Similar Questions

Recommended Questions

The mass of a molecule of gas is `4 xx 10^(-30) kg. If 10^(23)` molecules strike the area of 4 square meter with the velocity `10^(7)` m/sec, then what is the pressure exerted on the surface ?
(Assuming perfectly elastic collision and they are hitting perpendicularly)