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Chemical Kinetics

Multiple Choice Questions

301.

A first-order reaction has a specific reaction rate of 10^–2 s^–1. How much time will it take for 20 g of the reactant to reduce to 5 g?

238.6 second
138.6 second
346.5 second
346.5 second

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302.

The equilibrium constants of the following are.

$straight N subscript 2 space plus space 3 straight H subscript 2 space rightwards harpoon over leftwards harpoon with space on top space 2 NH subscript 3 space space straight K subscript 1 straight N subscript 2 space plus space straight O subscript 2 space rightwards harpoon over leftwards harpoon with space on top space 2 NO space space space space straight K subscript 2 straight H subscript 2 space plus space 1 half straight O subscript 2 space rightwards arrow with space on top space straight H subscript 2 straight O space straight K subscript 3$

The equilibrium constant (K) of the reaction:

$2 NH subscript 3 space plus space 5 over 2 straight O subscript 2 space rightwards harpoon over leftwards harpoon with straight K on top space 2 NO space plus space straight H subscript 2 straight O comma space will space be$

$straight K subscript 1 straight K subscript 3 superscript 3 divided by straight K subscript 2$
$straight K subscript 2 straight K subscript 3 superscript 3 space divided by space straight K subscript 1$
$straight K subscript 2 straight K subscript 3 superscript 3 space divided by space straight K$
$straight K subscript 2 straight K subscript 3 superscript 3 space divided by space straight K$

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303.

A mixture of 2.3 g formic acid and 4.5 g oxalic acid is treated with conc. H₂SO₄. The evolved gaseous mixture is passed through KOH pellets. Weight (in gram) of the remaining product at STP will be

304.

The correct difference between first and second order reactions is that

The rate of a first-order reaction does not depend on reactant concentrations; the rate of a second-order reaction does depend on reactant concentrations
The half-life of a first-order reaction does not depend on [A]₀; the half-life of a second-order reaction does depend on [A]₀
The rate of a first-order reaction does depend on reactant concentrations; the rate of a second-order reaction does not depend on reactant concentrations
A first-order reaction can catalyzed; a second-order reaction cannot be catalyzed

305.

When initial concentration of the reactant is doubled, the half-life period of a zero order reaction

Is halved
Is doubled
Remains unchanged
Is tripled

306.

For the chemical reaction,

2O₃ ⇌ 3O₂

The reaction proceeds as follows

O₃ ⇌ O₂ + O

O + O₃ → 2O₂ (slow)

The rate law expression will be

r = k' [O₃]²
r = k' [O₃]²[O₂]^-1
r = k'[O₃][O₂]
unpredictable

307.
In the following graph
The slope of line AB give the information of the

value of $\frac{E_{a}}{2.303}$

Value of $\frac{2.303}{E_{a}}$

value of $- \frac{E_{a}}{2.303}$

value of $- \frac{E_{a}}{2.303 RT}$

value of $- \frac{E_{a}}{2.303}$

$∵ In K = In A - \frac{E_{a}}{RT} In K = In A - \frac{E_{a}}{R} . \frac{1}{T} Thus, \log_{10} K = \log A - \frac{E_{a}}{2.303 RT} \log K = \log A - \frac{E_{a}}{2.303} . \frac{1}{T}$

308.

A first-order reaction is 50% completed in 1.26 x 10¹⁴s. How much time would it take for 100% completion?

1.26 x 10¹⁵ s
2.52 x 10¹⁴ s
2.52 x 10²⁸ s
Infinite

309.

For the chemical reaction, 2O₃ ⇌ 3O₂. The reaction proceeds as follows

O₃ ⇌ O₂ + O (fast)