Statement I: | Scientific notation for 0.00016 is \(1.6 \times 10^{-3} \). |
Statement II: | The volume of water to be added to change the molarity of 200 mL 0.5 M aqueous solution to 0.1 M is 800 mL. |
1. | Statement I is correct, Statement II is correct. |
2. | Statement I is incorrect, Statement II is correct. |
3. | Statement I is correct, Statement II is incorrect. |
4. | Statement I is incorrect, Statement II is incorrect. |
1. | 1 g | 2. | 2 g |
3. | 3 g | 4. | 4 g |
An aqueous solution of urea containing 18 g of urea in 1500 cm3 of the solution has a density of 1.052 g/cm3. If the molecular weight of urea is 60, then the molality of the solution is-
1. 0.2
2. 0.192
3. 0.064
4. 1.2
The NaNO3 weighed out to make 50 mL of an aqueous solution containing 70.0 mg Na+ per ml is:
(Rounded off to the nearest integer) [Given: Atomic weight in g mol–1 – Na: 23; N: 14; O: 16]
1. 13 g
2. 26 g
3. 18 g
4. 22 g
A solution is prepared by adding 2 g of substance A to 18 g of water. The mass percent of the solute is:
1. 20%
2. 10%
3. 15%
4. 18%