Two identical charged spheres are suspended by strings of equal lengths. The strings make an angle of `30^@` with each other. When suspended in a liquid of density `0.8gcm^-3`, the angle remains the same. If density of the material of the sphere is `1.6gcm^-3`, the dielectric constant of the liquid is

Two identical charged spheres are suspended by strings of equal lengths. The strings make an angle 30^(@) with each other. When suspended in a liquid of density 0.8 gm//cm^(3) , the angle remains the same. If the density of the material of the sphere is 1.6 gm//cm^(3) , the dielectric constant of the liquid is :

Two identically charged spheres are suspended by strings of equal length. The strings make an angle of 30^(@) with each other. When suspended in a liquid of density 0.8 g// c c the angle remains same. What is the dielectric constant of liquid. Density of sphere =1.6 g//c c

Two identically charged spheres are suspended by strings of equal length. The strings make an angle of 30^(@) with each other. When suspended in a liquid of density 0.8 g// c c the angle remains same. What is the dielectric constant of liquid. Density of sphere =1.6 g//c c

Two identical charged spheres are suspended by strings of equal lengths. The strings make an angle 30^@ with each other. When suspended in a liquid of density 800 kg m^-3 , the angle remains the same. Wahat is the dielectric constant of the liquid? The density of the material of the sphere is 1600 kg m^-3

Two identical charged spheres are suspended by strings of equal lengths. The strings make an angle 30^@ with each other. When suspended in a liquid of density 800 kg/ m^3 , the angle remains the same. What is the dielectric constant of the liquied? The density of the material of the sphere is 1600 kg/ m^3 .

Two identical charged spheres of material density rho , suspended from the same point by inextensible strings of equal length make an angle theta between the string. When suspended in a liquid of density sigma the angle theta remains the same. The dielectric constant K of the liquid is