The Arrehenius equation for the rate constant of decompoistion of methyl nitrite and ethyl nitrite are
`k_(1) (s^(-1)) =10^(13) exp ((-152300 J mol^(-1))/(RT))`
and `k_(2)(s^(-1)) = 10^(14)exp((-157700 J mol^(-1))/(RT))` respectively. Find the temperature at which the rate constant are equal.

The rate constant of decomposition of methyl nitrite (K_(1)) and ethyl nitrite (K_(2)) follow the equations. K_(1)(s^(-1))=10^(13)e^([(-152.3xx10^(3))/(RT)Jmol^(-1)]) and K_(2)(s^(-1))=10^(14)e^([(-152.3xx10^(3))/(RT)Jmol^(-1)]) Calculate the temperature at which both have same rate of decomposition if 0.1M of each is taken and both show I order kinetics.

The Arrhenius equations for cis-trans isomerzation of but-2-ene (CH_(3)-CH=CH-CH_(3)) and but-2-ene, 1 nitrile (CH_(3)-CH=CH-CN) are, k(s^(-1))=10^(13.8)exp(-263.5kJ"mol"^(-1)//RT) k^(-1)(s^(-1))=10^(11)exp(-214.5 kJ"mol"^(-1)//RT) Calculate the temperature at which k=k^(-1) .

The Arrhenious equation for the decomposition of methyl nitrite and ethyl nitride are k_(1) and k_(2) respectively and the activation energy of second is 4 kJ//"mole" is more than that of first. At what temperature value of rate constant k_(1) will be equal to k_(2) if k_(1) (s) = 10^(13) (e^(-(E_(a_(1)))/(RT))) and k_(2)(s^(-1)) = 10^(14) (e^(-(E_(a_(2)))/(RT)))

The rate constant for the decompoistion of a certain reaction is described by the equation: log k(s^(-1)) = 14 - (1.25 xx 10^(4) K)/(T) Energy of activation (in kcal ) is

The rate constant for the decompoistion of a certain reaction is described by the equation: log k(s^(-1)) = 14 - (1.25 xx 10^(4) K)/(T) Energy of activation (in kcal ) is

If the rate constant of reaction k=2times10^(-6)s^(-1)atm^(-1) . Its value in dm^(3)mol^(-1)s^(-1) is

Rate constant of two reactions are given below. Identifying their order of reaction k = 5.3 xx 10^(-2) L mol^(-1) s^(-1) k = 3.8 xx 10^(-4) s^(-1)

Rate constant of two reactions are given below. Identifying their order of reaction k = 5.3 xx 10^(-2) L mol^(-1) s^(-1) k = 3.8 xx 10^(-4) s^(-1)

The rate constant for the decompoistion of a certain reaction is described by the equation: log k(s^(-1)) = 14 - (1.25 xx 10^(4) K)/(T) Pre-exponential factor for this reaction is