Express kinetic molecular theory equation int `(P=(2)/(3)E)`, where E is the kinetic energy per unit volume.

Write the kinetic gas equation and express it as P = (2)/(3) E , where E is the kinetic energy per unit volume.

|f. water is flowing in a pipe with speed 2 m/s then its kinetic energy per unit volume is

If P is the pressure of gas, then the kinetic energy per unit volume of the gas is .

Assuming the expression for the pressure p exerted by an ideal gas, prove that the kinetic energy per unit volume of a gas is (3)/(2) p.

Assuming the expression for the pressure exerted by an ideal gas, prove that the kinetic energy per mole of the gas =(3)/(2) RT. Hencce prove that the kinetic energy per molecule of the gas =(3)/(2)k_(B)T .

Prove that the pressure of an ideal gas is numerically equal to two third of the mean translational kinetic energy per unit volume of the gas.

In the formula p = 2/3 E , the term (E) represents translational kinetic energy per unit volume of gas. In case of monoatomic gas, translational kinetic energy and total kinetic energy are equal.