The relationship between osmmotic pressure at 273 k when 10 g glucose `(P_(1))`, 10 g urea `(P_(2))` and 10g sucorse `P_(3))` are dissoved in 250 ml of water is

Vapour pressure of water of 293 K when 25 g of glucose is dissolved in 450 g of water.

Vapour pressure of of water at 293K is 17.535 mm Hg. Calculate the vapour pressure of the solution at 293K when 25g of glucose is dissolved in 450g of water ?

Calculate the molality of 10g of glucose in 90g of water.

The equilibrium constant K_(c) for the reaction P_(4(g)) hArr 2P_(2(g)) is 1.4 at 400^(@) C. Suppose that 3 moles of P_(4(g)) and 2 moles of P_(2(g)) are mixed in 2 litre container at 400^(@) C. What is the value of reaction quotient (Q_(c)) ?

Vapour pressure of pure water at 298 K is 23.8 mm Hg. 50g urea (NH_(2)CONH_(2)) is dissolved in 850 g of water. Calculate the vapour pressure of water for this solution and its relative lowering. Consider Raoult's law and formula for relative lowering in vapour pressure, (P_(A)^(0)-P_(s))/(P_(A)^(0))=(n_(B))/(n_(A))=(W_(B))/(M_(B))xx(M_(A))/(W_(A)) Where, (P_(A)^(0)-P_(s))/(P_(A)^(0)) is called relative lowering in vapour pressure.

Two chambers, one containing m_(1)g of gas at P_(1) pressure and other containing m_(2)g of a gas at P_(2) pressure are put in communication with each other. If temperature remains constant, the common pressure reached will be

Derive an integrated rate equation in terms of total pressure (P) and the partial pressures P _(A), P_(B), P_(C) for the gaseous reaction A (g) to B(g) +C(g).

What is the equilibrium expression for the reaction, P_(4(s)) + 5O_(2(g)) hArr P_(4)O_(10(s)) ? .