Dissolving 180 g of glucose (mol.w.t. 180) in 1000g of water gave a solution of density 1.15 g/mL. The molarity of the solution is

Dissolving 120g of urea (Mw = 60) in 1000 g of water gave a solution of density 1.15 g mL^(-1) . The molarity of solution is:

The density of a solution prepared by dissolving 120 g of urea (mol. Mass=60 u) in 1000 g of water is 1.15 g/mL. The molarity if this solution is

The density of a solution prepared by dissolving 120 g of urea (mol. Mass=60 u) in 1000 g of water is 1.15 g/mL. The molarity if this solution is

18g of glucose (molar mass 180g "mol"^(-1) ) is present in 500CM^(3) of its aqueous solution. What is the molarity of the solution? What additional data is required if the molality of the solution is also required to be calculated?

Given a solution of HNO_3 of density 1.4 g/mL and 63% w/w. Determine molarity of HNO_3 solution.

Density of 12.25%(w/w) H_(2)SO_(4) solution is 1.0552 g/ml then molarity of solution is :-

If 180 g of glucose is present in 400 ml of solution, molarity of the solution is:

The density of 3 molal solution of NaOH is 1.110g mL^(-1) . Calculate the molarity of the solution.

The density of 3 molal solution of NaOH is 1.110g mL^(-1) . Calculate the molarity of the solution.

A solution is prepared by dissolving 0.6 g of urea (molar mass =60 g"mol"^(-1) ) and 1.8 g of glucose (molar mass =180g"mol"^(-1) ) in 100 mL of water at 27^(@)C . The osmotic pressure of the solution is: (R=0.08206L "atm"K^(-1)"mol"^(-1))