# <!--td {border: 1px solid #ccc;}br {mso-data-placement:same-cell;}--> If 500 mL of a 5 M solution is diluted to 1500 mL, the molarity of the resultant solution is:  1. 1.5 M 2. 1.66 M 3. 0.017 M 4. 1.59 M

Subtopic:  Concentration Based Problem |
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Mark the species among the following that contains the highest number of atoms.

1. 4 g He

2. 46 g Na

3. 0.40 g Ca

4. 12 g He

Subtopic:  Moles, Atoms & Electrons |
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If the concentration of glucose  (C6H12O6)  in the blood is 0.9 g L-1, then the molarity of glucose in the blood is:
1. 5 M
2. 50 M
3. 0.005 M
4. 0.05 M

Subtopic:  Concentration Based Problem |
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The molality of a solution containing 18.25 g of HCl gas in 500 g of water is -

 1 0.1 m 2 1 M 3 0.5 m 4 1 m
Subtopic:  Concentration Based Problem |
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The number of molecules of H2SO4 present in 100 mL of 0.02 M H2SO4 solution are:

1. $12.044×{10}^{20}$ molecules

2. $6.022×{10}^{23}$ molecules

3. $1×{10}^{23}$ molecules

4. $12.044×{10}^{23}$ molecules

Subtopic:  Concentration Based Problem |
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The mass percent of carbon in carbon dioxide is:

 1 0.034% 2 27.27% 3 3.4% 4 28.7%
Subtopic:  Concentration Based Problem |
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The empirical formula and molecular mass of a compound are ${\mathrm{CH}}_{2}\mathrm{O}$ and 180 g, respectively. The molecular formula of the compound is -

 1.  C9H18O9 2.  CH2O 3.  C6H12O6 4.  C2H4O2
Subtopic:  Empirical & Molecular Formula |
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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 $$46.80~\mathrm{g}$$
Subtopic:  Introduction |
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The incorrect statement among the following is:

 1 A molecule of a compound has atoms of different elements. 2 A compound cannot be separated into its constituent elements by the physical method of separation. 3 A compound retains the physical properties of its constituent elements. 4 The ratio of atoms of different elements in a compound is fixed.
Subtopic:  Introduction |
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Which of the following statements is correct about the reaction is given below?

$4\mathrm{Fe}\left(\mathrm{s}\right)+3{\mathrm{O}}_{2}\left(\mathrm{g}\right)\to 2{\mathrm{Fe}}_{2}{\mathrm{O}}_{3}\left(\mathrm{g}\right)$

 1 Total mass of iron and oxygen in reactants = total mass of iron and oxygen in product therefore it follows law of conservation of mass 2 Total mass of reactants = total mass of product, therefore, law of multiple proportions is followed 3 Amount of Fe2O3 can be increased by taking any one of the reactants (iron or oxygen) in excess 4 Amount of Fe2O3 produced will decrease if the amount of any one of the reactants (iron or oxygen) is taken in excess

Subtopic:  Limiting Reagent |
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