Calculate the mass of urea `("NH"_(2)"CONH"_(2))` required in making 2.5 kg of 0.25 molar aqueous solution.
We know that molarity (m) `=("Moles of solute")/("Mass of solvent in kg")`
and moles of soute `=("Mass of solute")/("Molar mass of solute")`
So, find the molar mass of solute by adding atomic masses of different element present in it and mass by using the formula,
Molality `=("Mass of solute/molar mass of solute")/("Mass of solvent in kg")`

Calculate the mass of urea (NH_2 CONH_2) required in making 2.5 kg of 0.25 molal queous solution.

Calculate the mass of sodium acetate (CH_(3)COONa) required to make 500 ml. of 0.375 molar aqueous solution. Molar mass of sodium acetate is 82.0245g mol^(-1) .

Calculate the molarity of each of the following solution : (a) 30g of CO(NH_(3))_(2).6H_(2)O in 4.3 L of solution. (b) 30 mL of 0.5" MH"_(2)"SO"_(4) diluted to 500 mL. (a) Molarity =("moles of solute")/("Volume of solution litre") and moles of solute =("mass of solute")/("molar solution of solute") So, first find molar mass by adding atomic masses of different elements, then find moles of solute and then molarity. (b) Use molarity equation for dilution. M_(1)V_(1)=M_(2)V_(2) (Before dilution) (After dilution)

Define and explain molar mass.

Define and explain molar mass.

The molar mass of a substance is 20g. The molecular mass of the substance is

Molar mass of water=…………..U.