We have two different liquids `A` and `B` whose relative densities are `0.75` and `1.0`, respectively. If we dip solid objects `P` and `Q` having relative densities `0.6` and `0.9` in these liquids, then

The relative density of Kerosene is 0.8 ,then find its density.

The ratio of buoyant forces experienced by a solid body when immersed in two liquids whose relative densities are 1 and 0.5, respectively, is 2 : 1

Two capillary tubes of same diameter are put vertically one each in two liquids whose relative densities are 0.8 and 0.6 and surface tensions are 60 dyne/cm and 50 dyne/cm respectively. Ratio of heights of liquids in the two tubes (h_(1))/(h_(2)) is

Two capillary tubes of same diameter are put vertically one each in two liquids whose relative densities are 0.8 and 0.6 and surface tensions are 60 dyne/cm and 50 dyne/cm respectively. Ratio of heights of liquids in the two tubes (h_(1))/(h_(2)) is

Two capillary tubes of same diameter are put vertically one each in two liquids whose relative densities are 0.8 and 0.6 and surface tensions are 60 dyne/cm and 50 dyne/cm respectively. Ratio of heights of liquids in the two tubes (h_(1))/(h_(2)) is

Two liquids A and B have vapour pressure of 0.600 bar and 0.2 bar, respectively. In an ideal solution of the two, calculate the mole fraction of A at which the two liquids have equal partial pressures.

Two liquids A and B have vapour pressure of 0.600 bar and 0.2 bar, respectively. In an ideal solution of the two, calculate the mole fraction of A at which the two liquids have equal partial pressures.