Using mass (M), length (L) time (T) and current (A) as fundamental quantities, the dimension of permeability is

If momentum (p), area (A) and time (T) are taken to be fundamental quantities, then energy has the dimensional formula

In a system of units,if force (f).,acceleration (A) and time(T) are taken as fundamental units then dimenstional formula of energy is :

If M,L and T are considered to be fundamental quantities,demension of Planck constant would be:

Why length, mass and time are chosen as base quantities in mechanics?

If Planck's cosntant (h) and speed of light in vaccum (c ) are taken as two fundamental quantities, which one of the following can, in addition, be taken to express length, mass and time in terms of the three chosen fundamental quantities?

Name physical quantity having the dimensional formula. [M^1L^2T^-1]

Name physical quantity having the dimensional formula. [M^1L^-3T^0]

Name physical quantity having the dimensional formula. [M^1L^2T^-2]

If velocity of light c, Plank's constant h and gravitational ontant G are taken as fundamental quantities then express mass, length and time in terms of dimensions of these quantities.

Classically, an electron can be in any orbit around the nucleus of an atom. Then what determines the typical atomic size? Why is an atom not, say, thousand times bigger than its typical size? The question had greatly puzzled Bohr before he arrived at his famous model of the atom that you have learnt in the text. To simulate what he might well have done before his discovery, let us play as follows with the basic constants of and see if we can get a quantity with the dimensions of length that is roughly equal to the known of an atom (~ 10^ -10 m).- Construct a quantity with the dimensions of length from the fundamental constants e, m_e , and c. Determine its numerical value.