Formation of a solution from two components can be considered as :
(i) pure solvent `rarr` separated solvent molecules, `/_\H_(1)`
(ii) Pure solute `rarr`separated molecules,`/_\H_(2)`
(iii) separated solvent and solute molecules`rarr`solution, `/_\H_(3)`
solution so formed will be ideal if :

9.8 grams of H_(2)SO_(4) is present in two litres of a solution. The molarity of the solution is:

The membrane which allows the solvent molecules to pass through it and not the solute molucules is called

A solution containing solvent molecules, solute molecules and ions formed by the dissociation of solute molecules.

Assertion (A) When solution is separted from the pure solved semipermeable membrane, the solvent molecules pass through it from pure solvent side to the solution side. Reason (R ) Diffusion solvent occurs from a region of concentration solution to a region of low concentration soluton.

Choose A,B,C or D match the descriptions (i) to (iv) alphabets may be repeated . (A) nonelectrolyte (B) strong elestrolyte (C ) weak electrolyte (D) metallic conductor (i) Molten ionic compound (ii) Carbon tetrachloride (iii) An aluminium wire (iv) A solution containing solvent molecules , solute molecules and ions formed by the dissociation of solute molecules . (v) A sugar solution with sugar molecules and water molecules .

A 5 M solution of H_(2)SO_(4) is diluted from 1 litre to a volume of 100 litres, the normality of the solution will be

For an ideal solution containing a nonvolatile solute, which of the following expression represents the vapour pressure of the solute ? (x_(1)rarr mole fraction of solvent)

Name the method used to separate pure water from a solution of salt.

A solution with osmotic pressure pi_(1) is separated from another solution of osmotic pressure pi_(2) by SPM solvent flows from pi_(1) to pi_(2) , then