A spherical drop of water has `1mm` radius. If the surface tension of the water is `50 xx 10^(-3) N//m` then find the difference of pressure between inside and outside the spherical drop is :

A spherical drop of water as 1mm radius. If the surface tension of the the water is 50xx10^-3(N)/(m) , then the difference of pressure between inside and outside the spherical drop is:

A spherical drop of water as 1mm radius. If the surface tension of the the water is 50xx10^-3(N)/(m) , then the difference of pressure between inside and outside the spherical drop is:

A spherical drop of water has 1mm radius. If the surface tension of water is 70xx10^(-3)N//m , then the difference of pressure between inside and outside of the spherical drop is:

A spherical drop of water has 1mm radius. If the surface tension of water is 70xx10^(-3) N//m, then the difference of pressure between inside and outside of the spherical drop is:

A spherical drop of water has 1 mm radiusHf the surface tension of water is 75 xx 10^(-3) N/m, then difference of pressure between inside and outside of the drop is

A spherical drop of water has 1 mm radiusHf the surface tension of water is 75 xx 10^(-3) N/m, then difference of pressure between inside and outside of the drop is

A spherical drop of water has a diameter of 2 mm . If the surface tension of water is 70 xx 10^(3) N/m , then the difference of pressures between the inside and outside of the spherical drop is

A spherical drop of water has 2.5 mm radius. If the surface tension of water is 70 xx 10^(-3) N m^(-1) , then the excess pressure inside the drop is

A spherical drop of water has 2.5 mm radius. If the surface tension of water is 70 xx 10^(-3) N m^(-1) , then the excess pressure inside the drop is

The radius of a spherical drop of water is 1 mm. If surface tension of water be 70 xx 10^(-3) Nm^(-1) , the pressure difference between inside and outside the drop will be