1) The decomposition of compound A is first order with an activation energy of 52.3 kJ...

The decomposition of a compound in a first-order solution, with an activation energy of 52.3 kJ...

The decomposition of a compound in a first-order solution, with an activation energy of 52.3 kJ mol-1. A solution with 10% A decomposes 10% in 10 min at 10 ° C. What percentage of decomposition can be found with a 20% solution after 20 min at 20 ° C? Answer: 36.21%

In a first order decomposition, the constant is 0.00354 sec-1. What percentage of the compound has...

In a first order decomposition, the constant is 0.00354 sec-1. What percentage of the compound has decomposed after 43.3 seconds?

if the decomposition of N2O5 has an activation energy of 103 kJ/mole and a frequency factor...

if the decomposition of N2O5 has an activation energy of 103 kJ/mole and a frequency factor of 4.3 *10^13 s^-1. what is the rate constant for this decomposition at 20°C?100°C?

1) A first order reaction has an activation energy of 66.6 kJ/mol and a frequency factor...

1) A first order reaction has an activation energy of 66.6 kJ/mol and a frequency factor (Arrhenius constant) of 8.78 x 1010 sec -1. Calculate the rate constant at 19 oC. Use 4 decimal places for your answer. 2) A first order reaction has a rate constant of 0.988 at 25 oC and 9.6 at 33 oC. Calculate the value of the activation energy in KILOJOULES (enter answer to one decimal place)

The activation energy for the decomposition of hydrogen peroxide is 55.0 kJ/mol. When the reaction is...

The activation energy for the decomposition of hydrogen peroxide is 55.0 kJ/mol. When the reaction is catalyzed by the enzyme catalase, it is 11.00 kJ/mol. 2H2O2(aq) → 2H2O(l) + O2(g) Calculate the temperature that would cause the nonenzymatic catalysis to proceed as rapidly as the enzyme-catalyzed decomposition at 20.0°C. Assume the frequency factor, A, to be the same in both cases. Report your answer to 3 significant figures.

Ethyl chloride vapor decomposes by the first-order reaction C2H5Cl→C2H4+HCl The activation energy is 249 kJ/mol and...

Ethyl chloride vapor decomposes by the first-order reaction C2H5Cl→C2H4+HCl The activation energy is 249 kJ/mol and the frequency factor is 1.6×1014s−1. Find the fraction of the ethyl chloride that decomposes in 19 minutes at this temperature. Express your answer using one significant figure.

A certain gas-phase reaction is first order in each of the reactants. The energy of activation...

A certain gas-phase reaction is first order in each of the reactants. The energy of activation for the reaction is 39.7 kJ mol−1. At 65 °C the rate constant is 0.35 m3 mol−1 s−1. Calculate the entropy of activation at 65 °C. The answer should be 44.1 kJ/mol

Ethyl chloride vapor decomposes by the first-order reaction C2H5Cl→C2H4+HCl The activation energy is 249 kJ/mol and...

Ethyl chloride vapor decomposes by the first-order reaction C2H5Cl→C2H4+HCl The activation energy is 249 kJ/mol and the frequency factor is 1.6×1014s−1 The value of the specific rate constant at 720 K is k= 1.4x10^-4 s^-1 1) Find the fraction of the ethyl chloride that decomposes in 19 minutes at this temperature. 2) Find the temperature at which the rate of the reaction would be twice as fast.

The rate constant for the first-order decomposition of a compound A in the reaction 2 A...

The rate constant for the first-order decomposition of a compound A in the reaction 2 A  P is k, =3.56 x 10-7 s-1 at 25°C. What is the half-life of A? What will be the pressure, initially 33.0 kPa at (a) 50 s, (b) 20 min, (c) 20 h after initiation of the reaction?

The decomposition of ethylene oxide (CH2)2O (g), at 652K is a first order reaction with a...

The decomposition of ethylene oxide (CH2)2O (g), at 652K is a first order reaction with a rate constant of k=0.0012 min^-1 and an activation energy of 218 KJ/mol. (CH2)2O (g) ----> CH4 (g) + CO (g) Calculate: a) The rate constant of the reaction at 525K. and b) the temperature at which the rate constant is k=0.01 min^-1 Thank You