calculate concentration of nitric acid in moles per litre in a sample having density 1.41gmL^-1 ,mass percent of nitric acid being 69%
Answers
Answer:
Answer:
Solve please
Answer:
Solution :
Mass percent of nitric acid in the sample = 69 % [Given]
Thus, 100 gof nitric acid contains 69 g of nitric acid by mass.
Molar mass of nitric acid (HNO_3)
= (1 + 14 + 3(16)) g mol^-1
= 1 + 14 + 48
= 63 g mol^-1
Number of moles in 69 g of HNO,
= 69g/63g mol^-1
= 1.095 mol
Volume of 100g of nitric acid solution
= Mass of solution/density of solution
= 100g/1.41gmL
= 70.92 mL
= 70.92 x10^-3 L
Concentration of nitric acid
= 1.095 mole/70.92x10^-3L
= 15.44 mol/L
=> Concentration of nitric acid = 15.44 mol/L
Answer:
Question:-
Calculate the concentration of nitric acid in moles per litre in a sample having density 1.41gm / ltr ,mass percent of nitric acid being 69%. In other words, find Molarity (M) ?
Answer:-
Concentration in moles per litre = Molarity (M) = (No. of moles of solute) / (Volume of solution in litres)
And No. of moles of solute = (Mass of solute) / (Molecular Mass of solute)
So,
Molarity = (Mass of solute) / [ Molecular mass of solute * Volume of solution of litres ]
Given: 100% of the sample has 69% HNO₃ by mass
=> 100g of the sample has 69g of HNO₃
So, Mass of solute = 69g
and Mass of Solution = 100g
Molecular mass of HNO₃ :-
= 1 + 14 + (16 * 3) g/mol
= 63 g/mol
So, Molecular mass of solute = 63 g/mol
Volume of solution :-
(Mass of solution) / (Density of Solution)
= (100g) / (1.41 g/ml)
= 70.92 ml
We have to convert ml to litres
= 70.92 * (10)^(-3) l
So,
Molarity = (Mass of solute) / [ Molecular mass of solute * Volume of solution of litres ]
= (69) / (63 * 70.92 * (10)^(-3) M
= 15.44 M
(M stabds for molar)
Ans. Molarity = 15.44 M