MCQMediumJEE 2023Integrated Rate Laws

JEE Chemistry 2023 Question with Solution

A (g) \rightarrow 2B (g) + C (g) is first order reaction. The initial pressure of the system was found to be 800mm Hg800 \, \text{mm Hg} which increased to 1600mm Hg1600 \, \text{mm Hg} after 10min10 \, \text{min}. The total pressure of the system after 30min30 \, \text{min} will be _____ mm Hg.

  • A

    2200mm Hg2200 \, \text{mm Hg}

  • B

    2400mm Hg2400 \, \text{mm Hg}

  • C

    1800mm Hg1800 \, \text{mm Hg}

  • D

    2000mm Hg2000 \, \text{mm Hg}

Answer

Correct answer:A

Step-by-step solution

Standard Method

Given: Reaction is A(g)2B(g)+C(g)A \text{(g)} \rightarrow 2B \text{(g)} + C \text{(g)} and it is first order. Initial pressure is 800mm Hg800 \, \text{mm Hg}. Total pressure becomes 1600mm Hg1600 \, \text{mm Hg} after 10min10 \, \text{min}.

Find: Total pressure after 30min30 \, \text{min}.

For the reaction, if pressure of AA decomposed is xx, then partial pressures are:

PA=800x,PB=2x,PC=xP_A = 800 - x, \quad P_B = 2x, \quad P_C = x

So total pressure at any time is:

Ptotal=(800x)+2x+x=800+2xP_{\text{total}} = (800 - x) + 2x + x = 800 + 2x

At t=10mint = 10 \, \text{min}, total pressure is 1600mm Hg1600 \, \text{mm Hg}. Therefore,

800+2x=1600800 + 2x = 1600 2x=8002x = 800 x=400x = 400

Hence pressure of AA left after 10min10 \, \text{min} is:

PA=800400=400mm HgP_A = 800 - 400 = 400 \, \text{mm Hg}

Thus after 10min10 \, \text{min}, pressure of AA becomes half of its initial value, so the half-life is 10min10 \, \text{min}.

After 30min=3t1/230 \, \text{min} = 3t_{1/2},

PA=800(12)3=100mm HgP_A = 800\left(\frac{1}{2}\right)^3 = 100 \, \text{mm Hg}

So decomposed pressure of AA is:

x=800100=700mm Hgx = 800 - 100 = 700 \, \text{mm Hg}

Then,

PB=2x=1400mm Hg,PC=x=700mm HgP_B = 2x = 1400 \, \text{mm Hg}, \quad P_C = x = 700 \, \text{mm Hg}

Total pressure is:

Ptotal=100+1400+700=2200mm HgP_{\text{total}} = 100 + 1400 + 700 = 2200 \, \text{mm Hg}

Therefore, the total pressure after 30min30 \, \text{min} is 2200mm Hg2200 \, \text{mm Hg}. The correct option is A.

Common mistakes

  • Using the given 1600mm Hg1600 \, \text{mm Hg} as the pressure of AA after 10min10 \, \text{min} is incorrect because it is the total pressure of the system. First express total pressure in terms of decomposition, then find the remaining pressure of AA.

  • Assuming pressure increases by a fixed amount every 10min10 \, \text{min} is wrong because the reaction is first order. Use half-life behavior for the reactant, not linear pressure growth.

  • Ignoring stoichiometry while computing product pressures is incorrect. For A2B+CA \rightarrow 2B + C, decomposition of pressure xx gives 2x2x for BB and xx for CC, not equal pressures for all species.

Practice more Integrated Rate Laws questions

Get unlimited AI-adaptive practice, mastery tracking, and an AI tutor that explains every step — free to start.

Related questions