Assuming ideal begaviour, the enthalpy and volume of mixing of two liquids, respectively, are

Assuming ideal behaviour, the enthalpy and volume of mixing of two liquids, respectively, are

When a body is put into three liquids in succession, it floats with 1/2,1/3and1/4 of its volume immersed in the three liquids respectively. If the body is put into a mixture of these liquids, mixed in equal volumes, what fraction of its volume will remain under the liquid?

The liquids X and Y form an ideal solution . The mixture has a vapour pressure of 400 mm at 300 K when mixed in the molar ratio of 1: 1 and a vapour pressure of 350 mm when mixed in the molar ratio of 1:2 at the same temperature . The vapour pressures of the two pure liquids X and Y respectively are

A variable immersion hydrometer is immersed upto (1)/(2) " and " (1)/(3) of its volume in two given liquids, respectively. Then the ratio of the densities of the two liquids is _____.

Two equal-volume flasks A and B containing equal masses of H_(2) and CH_(4) are at 100 K and 200 K , respectively. Assuming ideal behaviour, which of the following statements about the compressibility factor ( Z ) is true?

Two equal-volume flasks A and B containing equal masses of H_(2) and CH_(4) are at 100 K and 200 K , respectively. Assuming ideal behaviour, which of the following statements about the compressibility factor ( Z ) is true?

What is enthalpy change and volume change of mixing of two components forming an ideal solution?