Time period of an oscillating drop of radius r, density `rho` and surface tension T is `t=ksqrt((rhor^5)/T)`. Check the correctness of the relation

Time period of an oscillating drop of radius r, density rho and surface tension S is t = K sqrt((rho r^3)/(S)) . Check the correctness of this relation

Internal pressure inside a liquid drop of radius r and surface tension T is

Internal pressure inside a liquid drop of radius r and surface tension T is

A spherical liquid drop is placed on a horizontal plane . A small distrubance cause the volume of the drop to oscillate . The time period oscillation (T) of the liquid drop depends on radius (r) of the drop , density (rho) and surface tension tension (S) of the liquid. Which amount the following will be be a possible expression for T (where k is a dimensionless constant)?

A spherical liquid drop is placed on a horizontal plane . A small distrubance cause the volume of the drop to oscillate . The time period oscillation (T) of the liquid drop depends on radius (r) of the drop , density (rho) and surface tension tension (S) of the liquid. Which amount the following will be be a possible expression for T (where k is a dimensionless constant)?

A spherical liquid drop is placed on a horizontal plane . A small distrubance cause the volume of the drop to oscillate . The time period oscillation (T) of the liquid drop depends on radius (r) of the drop , density (rho) and surface tension tension (S) of the liquid. Which amount the following will be be a possible expression for T (where k is a dimensionless constant)?

Time period(T) in terms of pressure(P), density( rho ) and surface tension(S) is on basis of dimensional analysis

A spherical liquid drop is placed on a horizontal plane. A small disturbance causes the volume of the drop to oscillate. The time period of oscillation (T) of the liquid drop depends on radius (r ) of the drop density ( rho ) and surface tension (s) of the liquid. Which among the following will we be a possible expression for T (where k is a dimensionless constant )?

The time period (T) of small oscillations of the surface of a liquid drop depends on its surface tension (s), the density (rho) of the liquid and it's mean radius (r) as T = cs^(x) rho^(y)r^(z) . If in the measurement of the mean radius of the drop, the error is 2 % , the error in the measurement of surface tension and density both are of 1% . Find the percentage error in measurement of the time period.