A2 k1⇔k-1 2A
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 [...]
Two reactions R1 and R2 have identical pre-exponential factors. Activation energy of R1 exceeds that of R2 by 10 kJ mol^–1. If k1 and k2 are rate constants for reactions R1 and R2 respectively at 300 K, then ln(k2/k1) is equal to- (R = 8.314 J mol^–1K^–1)
02
Jun
Two reactions R1 and R2 have identical pre-exponential factors. Activation energy of R1 exceeds that of R2 by 10 kJ mol^–1. If k1 and k2 are rate constants for reactions R1 and R2 respectively at 300 K, then ln(k2/k1) is equal to- (R = 8.314 J mol^–1K^–1) A2 k1⇔k-1 2A For an elementary chemical reaction [...]
For an elementary chemical reaction, A2 k1⇔k-1 2A, the expression for d[A]/dt is.
02
Jun
For an elementary chemical reaction, A2 k1⇔k-1 2A, the expression for d[A]/dt is. A2 k1⇔k-1 2A For an elementary chemical reaction the expression for d[A]/dt is. June 2, 2021 Category: Chapter 17 - Chemical Kinetics , Chemistry , JEE Adv and Mains Chemistry 41 Years Solved Video Solutions 1979 - 2019 ,