Match the following physical quantities with units.
Physical quantity | Unit | ||
A. | Molarity | 1. | mol kg–1 |
B. | Molality | 2. | mol L–1 |
C. | Pressure | 3. | Candela |
D. | Luminous intensity | 4. | Pascal |
Codes:
A | B | C | D | |
1. | 1 | 4 | 2 | 3 |
2. | 2 | 1 | 4 | 3 |
3. | 1 | 4 | 3 | 2 |
4. | 4 | 1 | 3 | 2 |
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0.50 mol Na2CO3 and 0.50 M Na2CO3 are different because:
1. | Both have different amounts of Na2CO3. |
2. | 0.50 mol is the number of moles and 0.50 M is the molarity. |
3. | 0.50 mol Na2CO3 will generate more ions. |
4. | None of the above. |
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The SI unit of mass is:
1. Kilogram (kg)
2. Gram (g)
3. Pascal (Pa)
4. Kilometres (km)
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If the speed of light is 3.0 × 108 m s–1, then the distance covered by light in 2.00 nanoseconds will be -
1. 0.500 m
2. 0.600 m
3. 0.700 m
4. 0.800 m
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List I | List II | ||
a. | Micro | i. | m |
b. | Mega | ii. | m |
c. | Giga | iii. | m |
d. | Femto | iv. | m |
a | b | c | d | |
1. | i | iv | iii | ii |
2. | iii | iv | ii | i |
3. | ii | iii | iv | i |
4. | i | iii | iv | ii |
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Identify the reaction that does not obey the law of conservation of mass from the provided options:
1.
2.
3.
4.
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The numbers 234,000 and 6.0012 can be represented in scientific notation as:
1.
2. 0.234 and
3.
4. 2.34 and 6.0012
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If the density of the solution is 3.12 g ml-1, then what will be the mass of the 1.5 ml solution in two significant figures?
1. | \(4.4~\mathrm{g}\) | 2. | \(4680 \times 10^{3} ~\mathrm{g}\) |
3. | \(4.7~\mathrm{g}\) | 4. | \(46.80~\mathrm{g}\) |
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The following data was obtained when dinitrogen and dioxygen react together to form different compounds:
Mass of dinitrogen | Mass of dioxygen | |
i. | 14 g | 16 g |
ii. | 14 g | 32 g |
iii. | 28 g | 32 g |
iv. | 28 g | 80 g |
The law of chemical combination applicable to the above experimental data is:
1. Law of reciprocal proportions
2. Law of multiple proportions
3. Law of constant composition
4. None of these.
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Which of the following statement indicates that the law of multiple proportions is being followed?
1. | A sample of carbon dioxide taken from any source will always have carbon and oxygen in the ratio of 1:2. |
2. | Carbon forms two oxides namely, CO2 and CO, where masses of oxygen that combine with a fixed mass of carbon are in the simple ratio of 2:1. |
3. | When magnesium burns in oxygen, the amount of magnesium used for the reaction is equal to the amount of magnesium formed in magnesium oxide. |
4. | At constant temperature and pressure, 200 mL of hydrogen will combine with 100 mL of oxygen to produce 200 mL of water vapour. |
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