Chapter 17 – Chemical Kinetics

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Consider the reaction aG + bH→ Products When the concentration of both the reactants G and H is doubled, the rate increases by eight times. However, when the concentration of G is doubled keeping the concentration of H fixed, the rate is doubled. The over all order of reaction is
02
Jun
Consider the reaction aG + bH→ Products When the concentration of both the reactants G and H is doubled, the rate increases by eight times. However, when the concentration of G is doubled keeping the concentration of H fixed, the rate is doubled. The over all order of reaction is Consider the reaction aG + [...]
Posted in: Chapter 17 - Chemical Kinetics , Chemistry , JEE Adv and Mains Chemistry 41 Years Solved Video Solutions 1979 - 2019 ,
Tags: Consider the reaction aG + bH→ Products When the concentration of both the reactants G and H is doubled , the rate increases by eight times. However , the rate is doubled. The over all order of reaction is , when the concentration of G is doubled keeping the concentration of H fixed ,
Under the same reaction conditions, the initial concentration of 1.386 mol dm^-3 of a substance becomes half in 40s and 20s through first order and zero order kinetics, respectively. The ratio (k1/k0) of the rate constants for first order (k1) and zero order (k0) of the reaction is.
02
Jun
Under the same reaction conditions, the initial concentration of 1.386 mol dm^-3 of a substance becomes half in 40s and 20s through first order and zero order kinetics, respectively. The ratio (k1/k0) of the rate constants for first order (k1) and zero order (k0) of the reaction is. respectively. The ratio (k1/k0) of the rate [...]
Posted in: Chapter 17 - Chemical Kinetics , Chemistry , JEE Adv and Mains Chemistry 41 Years Solved Video Solutions 1979 - 2019 ,
Tags: respectively. The ratio (k1/k0) of the rate constants for first order (k1) and zero order (k0) of the reaction is. , the initial concentration of 1.386 mol dm^-3 of a substance becomes half in 40s and 20s through first order and zero order kinetics , Under the same reaction conditions ,
For a first order reaction A→P , the temperature (T) dependent rate constant (k) was found to follow the equation log k = (2000)/T+6.0 . The pre-exponential factor A and the activation energy Ea , respectively , are
02
Jun
For a first order reaction A→P , the temperature (T) dependent rate constant (k) was found to follow the equation log k = (2000)/T+6.0 . The pre-exponential factor A and the activation energy Ea , respectively , are are For a first order reaction A→P respectively the temperature (T) dependent rate constant (k) was found [...]
Posted in: Chapter 17 - Chemical Kinetics , Chemistry , JEE Adv and Mains Chemistry 41 Years Solved Video Solutions 1979 - 2019 ,
Tags: are , For a first order reaction A→P , respectively , the temperature (T) dependent rate constant (k) was found to follow the equation log k = (2000)/T+6.0 . The pre-exponential factor A and the activation energy Ea ,
Plots showing the variation of the rate constant (k) with temperature (T) are given below. The plot that follows the Arrhenius equation is
02
Jun
Plots showing the variation of the rate constant (k) with temperature (T) are given below. The plot that follows the Arrhenius equation is Plots showing the variation of the rate constant (k) with temperature (T) are given below. The plot that follows the Arrhenius equation is June 2, 2021 Category: Chapter 17 - Chemical Kinetics [...]
Posted in: Chapter 17 - Chemical Kinetics , Chemistry , JEE Adv and Mains Chemistry 41 Years Solved Video Solutions 1979 - 2019 ,
Tags: Plots showing the variation of the rate constant (k) with temperature (T) are given below. The plot that follows the Arrhenius equation is ,
The rate of a reaction doubles when its temperature changes from 300K to 310K. Activation energy of such a reaction will be (R=8.314JK^−1mol^−1 and log 2=0.301)
02
Jun
The rate of a reaction doubles when its temperature changes from 300K to 310K. Activation energy of such a reaction will be (R=8.314JK^−1mol^−1 and log 2=0.301) The rate of a reaction doubles when its temperature changes from 300K to 310K. Activation energy of such a reaction will be (R=8.314JK^−1mol^−1 and log 2=0.301) June 2, 2021 [...]
Posted in: Chapter 17 - Chemical Kinetics , Chemistry , JEE Adv and Mains Chemistry 41 Years Solved Video Solutions 1979 - 2019 ,
Tags: The rate of a reaction doubles when its temperature changes from 300K to 310K. Activation energy of such a reaction will be (R=8.314JK^−1mol^−1 and log 2=0.301) ,
In the reaction, P+Q→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
02
Jun
In the reaction, P+Q→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 Higher order (>3) reactions are rare due to In the reaction June 2, [...]
Posted in: Chapter 17 - Chemical Kinetics , Chemistry , JEE Adv and Mains Chemistry 41 Years Solved Video Solutions 1979 - 2019 ,
Tags: Higher order (>3) reactions are rare due to , In the reaction ,
For the non-stoichiometric reaction, 2A + B → C + D, the following kinetic data were obtained in three separate experiments, all at 298 K. The rate law for the formation of C is
02
Jun
For the non-stoichiometric reaction, 2A + B → C + D, the following kinetic data were obtained in three separate experiments, all at 298 K. The rate law for the formation of C is 2A + B → C + D all at 298 K. The rate law for the formation of C is For [...]
Posted in: Chapter 17 - Chemical Kinetics , Chemistry , JEE Adv and Mains Chemistry 41 Years Solved Video Solutions 1979 - 2019 ,
Tags: 2A + B → C + D , all at 298 K. The rate law for the formation of C is , For the non-stoichiometric reaction , the following kinetic data were obtained in three separate experiments ,
For the elementary reaction M→N , the rate of disappearance of M increases by a factor of 8 upon doubling the concentration of M . The order of the reaction with respect to M is
02
Jun
For the elementary reaction M→N , the rate of disappearance of M increases by a factor of 8 upon doubling the concentration of M . The order of the reaction with respect to M is For the elementary reaction M→N the rate of disappearance of M increases by a factor of 8 upon doubling the [...]
Posted in: Chapter 17 - Chemical Kinetics , Chemistry , JEE Adv and Mains Chemistry 41 Years Solved Video Solutions 1979 - 2019 ,
Tags: For the elementary reaction M→N , the rate of disappearance of M increases by a factor of 8 upon doubling the concentration of M . The order of the reaction with respect to M is ,
Higher order (>3) reactions are rare due to
02
Jun
Higher order (>3) reactions are rare due to Higher order (>3) reactions are rare due to June 2, 2021 Category: Chapter 17 - Chemical Kinetics , Chemistry , JEE Adv and Mains Chemistry 41 Years Solved Video Solutions 1979 - 2019 ,
Posted in: Chapter 17 - Chemical Kinetics , Chemistry , JEE Adv and Mains Chemistry 41 Years Solved Video Solutions 1979 - 2019 ,
Tags: Higher order (>3) reactions are rare due to ,
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 from 0.05 M , the rate of formation of O2 will be
02
Jun
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 from 0.05 M , the rate of formation of O2 will be A2 k1⇔k-1 2A For an elementary chemical reaction the expression [...]
Posted in: Chapter 17 - Chemical Kinetics , Chemistry , JEE Adv and Mains Chemistry 41 Years Solved Video Solutions 1979 - 2019 ,
Tags: A2 k1⇔k-1 2A , For an elementary chemical reaction , the expression for d[A]/dt is. ,