Differentiation#!#Integration

Use of Differentiation|Integration

Differentiation and Integration in Kinematics

Multinomial theorem || Use OF differentiation and Integration || Important questions

Comparison between differentiation and integration

Questions based on Basic Coordinate Geometry| Differentiation|Maxima & minima| Integration

Recap|Physical Signficance Of Differentiation|Basics Of Integration|Physical Signficance Of Integration|OMR|Summary

Concentration dependence of rate is called differential rate equation. Integrated differential equations give relation between directly measured experimental data i.e., concentration at different times and rate constant. The integrated rate equations are different for the reactions of differennt reaction orders. the first-order reaction has a rate constant 1.15xx10^(-3)s^(-1) . Q. Under which condition a bimolecular reaction is kinetically first order reaction:

Concentration dependence of rate is called differential rate equation. Integrated differential equations give relation between directly measured experimental data i.e., concentration at different times and rate constant. The integrated rate equations are different for the reactions of differennt reaction orders. the first-order reaction has a rate constant 1.15xx10^(-3)s^(-1) . Q. How long will 5g of this reactant take to reduce to 3g?

Concentration dependence of rate is called differential rate equation. Integrated differential equations give relation between directly measured experimental data i.e., concentration at different times and rate constant. The integrated rate equations are different for the reactions of differennt reaction orders. the first-order reaction has a rate constant 1.15xx10^(-3)s^(-1) . Q. For a reaction, A+H_(2)O to B Rate prop[A] The order of the reaction is:

Concentration dependence of rate is called differential rate equation. Integrated differential equations give relation between directly measured experimental data i.e., concentration at different times and rate constant. The integrated rate equations are different for the reactions of differennt reaction orders. the first-order reaction has a rate constant 1.15xx10^(-3)s^(-1) . Q. When the rate constant has same units as the rate of reaction, the order of the reaction is: