JEE Advanced 2013 Paper 1 Offline | Chemical Kinetics and Nuclear Chemistry Question 22 | Chemistry

JEE Advanced 2013 Paper 1 Offline

MCQ (Single Correct Answer)

-1

In the reaction, P + Q $$\to$$ R + S, the time taken for 75% reaction of P is twice the time taken for 50% reaction of P. The concentration of Q varies with reaction time as shown in the figure. The overall order of the reaction is

JEE Advanced 2013 Paper 1 Offline Chemistry - Chemical Kinetics and Nuclear Chemistry Question 9 English

IIT-JEE 2011 Paper 1 Offline

MCQ (Single Correct Answer)

-1

Bombardment of aluminium by $$\alpha$$-particle leads to its artificial disintegration in two ways : (i) and (ii) as shown. Products X, Y and Z, respectively, are

IIT-JEE 2011 Paper 1 Offline Chemistry - Chemical Kinetics and Nuclear Chemistry Question 8 English

proton, neutron, positron.

neutron, positron, proton.

proton, positron, neutron.

positron, proton, neutron, neutron.

IIT-JEE 2010 Paper 1 Offline

MCQ (Single Correct Answer)

-1

Plots showing the variation of the rate constant ($$k$$) with temperature ($$T$$) are given below. The point that follows Arrhenius equation is

IIT-JEE 2010 Paper 1 Offline Chemistry - Chemical Kinetics and Nuclear Chemistry Question 6 English Option 1

IIT-JEE 2010 Paper 1 Offline Chemistry - Chemical Kinetics and Nuclear Chemistry Question 6 English Option 2

IIT-JEE 2010 Paper 1 Offline Chemistry - Chemical Kinetics and Nuclear Chemistry Question 6 English Option 3

IIT-JEE 2010 Paper 1 Offline Chemistry - Chemical Kinetics and Nuclear Chemistry Question 6 English Option 4

IIT-JEE 2009 Paper 2 Offline

MCQ (Single Correct Answer)

-1

For a first-order reaction A $$\to$$ P, the temperature (T) dependent rate constant (k) was found to follow the equation $$\log k = - (2000){1 \over T} + 6.0$$. The pre-exponential factor A and activation energy $$E_a$$, respectively, are

$$1.0\times10^6~\mathrm{s^{-1}}$$ and 9.2 kJ mol$$^{-1}$$

$$6.0~\mathrm{s^{-1}}$$ and 16.6 kJ mol$$^{-1}$$

$$1.0\times10^6~\mathrm{s^{-1}}$$ and 16.6 kJ mol$$^{-1}$$

$$1.0\times10^6~\mathrm{s^{-1}}$$ and 38.3 kJ mol$$^{-1}$$

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