Question

Be sure to answer all parts. The rate constant of a reaction is 2.80 x 10 5 L/mol's at 195°C and 6.70 x 10" L/molts at 258°C. What is the activation energy of the reaction? Enter your answer in scientific notation. x 10_J/mol

Answer 1

The given numerical can be solved by using integrated form of the Arrhenius equation(1).The detailed solution is given in the pic attached!

crinen 8 at respective temperatures as rate constant of reaction (K) (T) K (l/mots) 2.80X10-5 6.70 x 10-3 T (°C) 195 c 258°c To find & solution o let. Ky=6.70x10 L Activation energy (Ea) of the 0x10 L/mals, T = 258°C [:0°c=233 ] = (258 + 273 )k = 531k K2=2.80 x 10-5 Limoes, T2= a 195°c (195+273) n. = 4 68 K. TITZ o we know from Asthenius Equation en ky = Ea TI-T2 where ki, k2 are the rate constants at on respectine absolute temperatures Tid T2 ) Ea is the actination energy, R= universal gas constant TI-T2 ke ... (1) 8.316 = Ea = RTIT2 en ky ... (1) 8.31 J K mol Putting the ginen values in equation (1), we have Ea = 8.310 J K mas x 531K X 468K in 6.70x10 3 (531 - 468) x 2.80 x 10-5 Lionals Lamelos = (3. 288 104 ) I mat bax 5.48 = 1.80 x 105 I mail Thus Ea of the reeaction = 1.80 x 105 J mail