If the energy, `E = G^p h^q c^r,` where G is the universal gravitational constant, h is the Planck's constant and c is the velocity of light, then the values of p are q and r are, respectively

If the energy E=G^(p)h^(q)c^(r ) where G is the universal gravitational constant, h is the planck's constant and c is the velocity of light, then the values of p, q and r are respectively: a) -1/2,1/2 and 5/2 b) 1/2, -1/2 and -5/2 c) -1/2,1/2 and 3/2 d) 1/2, -1/2 and -3/2

Expression for time in terms of G (universal gravitational constant), h (Planck constant) and c (speed of light) is proportional to:

Expression for time in terms of G (universal gravitational constant), h (Planck constant) and c (speed of light) is proportional to:

Given X = ( G h / c 3 ) 1 / 2,where G,h"and c are gravitational constant,plank's constant and velocity of light."X" are the same as those of

Construct a new physical quantity having dimensions of length in terms of universal constant : G (gravitational constant), h (Planck's constant) and c (velocity of light). What is the order of its value?

A quantity f is given by f=sqrt((hc^(5))/(G)) where c is speed of light, G universal gravitational constant and h is the Planck's constant. Dimension of f is that of:

A quantity f is given by f=sqrt((hc^(5))/(G)) where c is speed of light, G universal gravitational constant and h is the Planck's constant. Dimension of f is that of:

The dimension of a quantity (h gamma)/(c ) where h is the planck's constants, gamma is the frequency and c is the velocity of light are :