Derive the dimensional formulea for acc. Due to gravity, constant of gravitation, surface tension, coeffiecient of visocity, coefficient of elasticty, Planck's constant, gas constant, torque specific gravity and impulse.

The dimensional formula for Planck's constant h and gravitational constant G respectively is

The dimensional formula for Planck's constant and gravitational constant G respectively are :-

Deduce the dimensinal formulae for the ollowing physical quantites: Graviatinal constant (ii) Powr (iii) Young's modulus (iv) Coeffcient of viscosity (v) Surface tension (vi) Planck,s constant .

If G is the universal constant of gravitation and g is the acceleration due to gravity, then the dimensions of (G)/(g) are

A small steel ball of radius r is allowed to fall under gravity through a column of a viscous liquid of coefficient of viscosity eta . After some time the velocity of the ball attains a constant value known as terminal velocity upsilon_T . The terminal velocity depends on (i) the mass of the ball m (ii) eta , (iii) r and (iv) acceleration due to gravity g . Which of the following relations is dimensionally correct?

Which of the following has the same dimension as Planck's constant : Torque, gravitational constant, angular momentum ?

Give points of difference between Acceleration due to gravity (g) and Universal gravitational constant (G).

Derive the relation between specific heats of a gas at constant pressure and at constant volume, when the amount of gas is one gram molecule.