The term order and molecularity are common in chemical kinetics. Write Arrhenius equation.

The term order and molecularity are common in chemical kinetics. Write two factor influencing rate of a reaction

The term order and molecularity are common in chemical kinetics. What do you mean by order and molecularity?

In a class room discussion about order and molecularity of a chemical reaction, Ramu argued that “there are reactions which appear to be of higher order but actually follow first order kinetics.List out any three Important differences between order and molecularity.

The temperature dependence of the rate of a chemical reaction can be explained by Arrhenius equation.Give Arrhenius equation.

Write the chemical equation of this reaction.

The temperature dependence of the rate of a chemical reaction can be accurately explained by Arrhenius equation. With the help of Arrhenius equation, calculate the rate constant for the first order reaction C_2H_5I(g)toC_2H_(4(g))+HI_((G))at700K .Energy of activation (Ea)for the reaction is 209kjmol_(-1) and rate constant at 600K is 1.60xx10^(-5)s^(-1) [Universal gas constant R= 8.314JK^(-1)mol^(-1)]

The temperature dependence of the rate of a chemical reaction can be explained by Arrhenius equation.The rate of a chemical reaction doubles for an increase of 10 K in absolute temperature from 300 K. Calculate the activation energy(Ea)? [ R=8.314 JK^(-1)mol^(-1),log 2 = 0.3010 ].

The second term of an arithmetic sequence is 8 and the common difference is 3. Write the sequence?

A quantitative relation between rate constant k and temperature was proposed by Arrhenius. Represent the Arrhenius equation and explain the terms involved

Write the molecular formula.