The period `T` of a soap bubble under `SHM` is given by `T = P^(a) D^(b) S^(c )`, where `P` is pressure, `D`, is density and `S` is surface tension. Then the values of `a,b` and `c` are

The period of a body under S.H.M. is represented by TpropP^(a)D^(b)S^(c), where P is the pressure, D is the density and S is surface tension then the values of a,b and c are :

The time period of a body undergoing simple harmonic motion is given by T = p^a D^b S^c , where p is the pressure, D is density and S is surface tension. The values of a, b and c respectively are

A gas bubble oscillates with a time period T proportional to p^(a) d^(b) E^(c) where P is pressure , d is the density and E is the energy. The values of a,b and C are :

A gas bubble from an explosion under water oscillates with a period T proportional to P^(a) d^(b) E^(c ) , where P is the pressure, d is density of water and E is the total energy of the explosion. Find the value of a,b and c .

If the period 'T' of a drop under surface tension 's' is given by T = sqrt(d^(a) r^(b) S^(c)) where d is the density , r is the radius of the drop. If a=1,c= -1 then the value of b is

An air bubble produced due to a mild explosion inside sea- water is executing a harmonic motion. The time period of this motion, T prop p^(a) d^(b) E^( c) , where p = pressure d = density and E = energy released in the explosion. Determine the values of a,b and c from dimensional analysis.

A gas bubble from an explosion under water oscillates with a period T proportional to p^(a) d^(b)E^(c) where p is the static pressure d is the density of water and E is the total energy of explosion. Find the value of a,b and c.

A gas bubble, from an explosion under water, oscillates with a period proportional to P^a d^b E^c , where P is the static pressure , d is the density and E is the total energy of the explosion. Find the values of a,b and c.

A gas bubble, from an exlosion under water, oscillates with a period T proportional to p^(a)d^(b)E^( c ) . Where P is the static pressure, d is the density of water AND is the total energy of the explosion. Find the values of a, b and, c .