consider the first order reaction CH3NC=CH3CN given that the frequency factor and activation energy for the reaction are 3.98x10^13s-1 and 161 kj/mol respectively caculate the rate constant at 600c
consider the first order reaction CH3NC=CH3CN given that the frequency factor and activation energy for the...
The isomerization of methyl isocyanide, CH3NC - CH3CN, follows first-order kinetics. The half-lives were found to be 161 min at 199°C and 12.5 min at 230°C. Calculate the activation energy for this reaction. (R-8.314 J/mol K) 124 kJ/mol 6.17 x 10-3kJ/mol 78.2 kJ/mol 163 kJ/mol 31.4 kJ/mo
The isomerization of methylisonitrile to acetonitrile is first order in CH3NC. CH3NC (g) → CH3CN (g) The rate constant for the reaction is 9.45 × 10–5 s–1 at 478 K. When the initial [CH3NC] is 0.030 M, what is the half-life of the reaction? 7. The isomerization of methylisonitrile to acetonitrile is first order in CH3NC. CH3NC (E) → CH3CN (2) The rate constant for the reaction is 9.45 x 10551 at 478 K. When the initial (CH3NC) is 0.030...
The isomerization of methylisonitrile to acetonitrile CH3NC(g) → CH3CN(g) is first order in CH3NC. The half-life of the reaction is 8.42 × 10-2 at 575 K. The rate constant when the initial [CH3NC] is 0.030 mol L-1 is ________ s-1.
The isomerization of methylisonitrile to acetonitrile CH3NC(g) → CH3CN(g) is first order in CH3NC. The rate constant for the reaction is 9.45 * 10-5 5-1 at 478 K. The half-life of the reaction when the initial (CH3NC) is 0.030 mol L-1 is A) 1.06 * 104 B) 5.29* 103 C) 3.53E * 105 D) 7.33 103 E) 1.36 * 10-4
The isomerization of methylisonitrile to acetonitrile CH3NC(g) → CH3CN(g) is first order in CH3NC. The half-life of the reaction is 1.90 × 106 s at 420 K. The rate constant when the initial [CH3NC] is 0.030 M is ________ s-1.
The isomerization reaction, CH3NC → CH3CN, is first order and the rate constant is equal to 0.46 s-1 at 600 K. What is the concentration of CH3NC after 0.20 minutes if the initial concentration is 0.50 M? 2.0 ×10-1 M 4.6 × 10-3 M 4.6 × 10-1 M 2.0 × 10-3 M
For a certain first order reaction the frequency factor is 4.7 x 1010 s-1 and the activation energy is 25.0 kJ/mol. What is the rate constant at 78oC?
The frequency factor and activation energy for a chemical reaction are A = 9.23 x 10–12 cm3/(molecule·s) and Ea = 18.6 kJ/mol at 362.3 K, respectively. Determine the rate constant for this reaction at 362.3 K.
The frequency factor and activation energy for a chemical reaction are A = 6.00 x 10–12 cm3/(molecule·s) and Ea = 12.1 kJ/mol at 333.8 K, respectively. Determine the rate constant for this reaction at 333.8 K. _______ cm3/(molecule•s)
Ethyl chloride vapor decomposes by the first-order reaction C2H5Cl → C2H4 + HCl The activation energy is 249 kJ/mol and the frequency factor is 1.6 × 1014 s−1. Find the value of the specific rate constant at 867 K . Enter your answer numerically and in terms of the appropriate units for a first order reaction.