Match the laws given in List-$I$ with their mathematical forms given in List-$II$.
List-$I$ List-$II$ $(1)$ Boyle's Law $(A)$ $p \propto T$ $(2)$ Charles's Law $(B)$ $V \propto n$ $(3)$ Gay-Lussac's Law $(C)$ $p \propto \frac{1}{V}$ $(4)$ Avogadro's Law $(D)$ $pV = nRT$ $(5)$ Ideal Gas Equation $(E)$ $V = k_2T$
| List-$I$ | List-$II$ |
| $(1)$ Boyle's Law | $(A)$ $p \propto T$ |
| $(2)$ Charles's Law | $(B)$ $V \propto n$ |
| $(3)$ Gay-Lussac's Law | $(C)$ $p \propto \frac{1}{V}$ |
| $(4)$ Avogadro's Law | $(D)$ $pV = nRT$ |
| $(5)$ Ideal Gas Equation | $(E)$ $V = k_2T$ |
(A-D) The correct matches are as follows:
$(1)$ Boyle's Law: $p \propto \frac{1}{V}$ $(C)$
$(2)$ Charles's Law: $V \propto T$ or $V = k_2T$ $(E)$
$(3)$ Gay-Lussac's Law: $p \propto T$ $(A)$
$(4)$ Avogadro's Law: $V \propto n$ $(B)$
$(5)$ Ideal Gas Equation: $pV = nRT$ $(D)$
Therefore,the correct sequence is $(1-C, 2-E, 3-A, 4-B, 5-D)$.
$(1)$ Boyle's Law: $p \propto \frac{1}{V}$ $(C)$
$(2)$ Charles's Law: $V \propto T$ or $V = k_2T$ $(E)$
$(3)$ Gay-Lussac's Law: $p \propto T$ $(A)$
$(4)$ Avogadro's Law: $V \propto n$ $(B)$
$(5)$ Ideal Gas Equation: $pV = nRT$ $(D)$
Therefore,the correct sequence is $(1-C, 2-E, 3-A, 4-B, 5-D)$.
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