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Chemical Kinetics

Short Answer Type

301.

Following data are obtained for the reaction :
N₂O₅ → 2NO₂ + ½O₂

t/s	0	300	600
[N₂O₅]/mol L^–1	1.6 × 10^–2	0.8 × 10^–2	0.4 × 10^–2

(a) Show that it follows first order reaction.
(b) Calculate the half-life.
(Given log 2 = 0.3010 log 4 = 0.6021)

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302.

For the reaction, $2 N_{2} O_{5} (g) \overset{}{\to} 4 N O_{2} (g) + O_{2} (g)$ the rate of formation of NO₂ (g) is 2.8 x 10^-3 Ms^-1. Calculate the rate of disappearance of N₂O₅ (g).

303.

A first-order reaction is 50% completed in 40 minutes at 300 K and in 20 minutes at 320 K. Calculate the activation energy of the reaction.

(Given: log 2 = 0.3010, log 4 = 0.6021, R = 8.314 JK^–1 mol^–1)

Multiple Choice Questions

304.
Rate law for the reaction, A+ B → product is rate = k[A]²[B] What is the rate constant; if rate of reaction at a given temperature is 0.22 Ms^-1, when [A]= 1 M band [BJ= 0.25 M?

3.52 M^-2s^-1

0.88 M^-2s^-1

1.136 M^-2s^-1

0.05 M^-2s^-1

0.88 M^-2s^-1

$For reaction; A + B \to product \frac{dx}{dt} = k [A]^{2} [B] \Rightarrow 0.22 = k (1)^{2} (0.25) ∴ k = \frac{0.22}{0.25} = 0.88 M^{- 2} s^{- 1}$

305.

Decomposition of H₂O₂ follows a first order reaction. In fifty minutes the concentration of H₂O₂ decreases from 0.5 to 0.125 M in one such decomposition. When the concentration of H₂O₂ reaches 0.05 M, the rate of formation of O₂ will be:

6.93×10⁻⁴ mol min⁻¹
2.66 L min⁻¹ at STP
1.34×10⁻² mol min⁻¹
1.34×10⁻² mol min⁻¹

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306.

Higher order (>3) reactions are rare due to:

the increase in entropy and activation energy as more molecules are involved.
shifting of equilibrium towards reactants due to elastic collisions
loss of active species on a collision
loss of active species on a collision

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307.

The resistance of 0.2 M solution of an electrolyte is 50 Ω. The specific conductance of the solution of 0.5 M solution of the same electrolyte is 1.4 S m^-1 and resistance of the same solution of the same electrolyte is 280 Ω. The molar conductivity of 0.5 M solution of the electrolyte in Sm^-2 mol^-1 is

5 x 10^-4
5 x 10^-3
5 x 10³
5 x 10³

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308.

For the non- stoichiometric reaction 2A + B → C + D, the following kinetic data were obtained in three separate experiment, all at 298 K.

	Initial concentration (A)	Initial concnetration (B)	Initial rate of formation of C (mol L^-1 S^-1)
1	0.1 M	0.1 M	1.2 x 10^-3
2	0.1 M	0.2 M	1.2 x 10^-3
3	0.2 M	0.1 M	2.4 x 10^-3

The rate law for the formation of C is

$dC over dt space equals space straight k space left square bracket straight A right square bracket left square bracket straight B right square bracket$
$dC over dt space equals space straight k open square brackets straight A squared close square brackets left square bracket straight B right square bracket$
$dC over dt space equals space straight k left square bracket straight A right square bracket left square bracket straight B right square bracket squared$
$dC over dt space equals space straight k left square bracket straight A right square bracket left square bracket straight B right square bracket squared$

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309.

The rate of a reaction doubles when its temperature changes from 300K to 310K. Activation energy of such a reaction will be (R = 8.314 JK^–1 mol–1 and log 2 = 0.301)

53.6 kJ mol^-1
48.6 kJ mol^-1
58.5 kJ mol^-1
58.5 kJ mol^-1

301 Views

310.

For a first order reaction, (A) → products, the concentration of A changes from 0.1 M to 0.025 M in 40 minutes. The rate of reaction when the concentration of A is 0.01 M is