The first-order rate constant for the reaction of methyl chloride (CH3Cl) with water to produce methanol...

The first order rate constant for the hydrolysis of CH3Cl in H2O has a value of...

The first order rate constant for the hydrolysis of CH3Cl in H2O has a value of 3.32 × 10-10 s-1 at 25oC and 3.13 × ×10-19 s-1. What is the value of the energy of activation?

The rate constant of a first-order reaction is 3.20 × 10−4 s−1 at 350.°C. If the...

The rate constant of a first-order reaction is 3.20 × 10−4 s−1 at 350.°C. If the activation energy is 135 kJ/mol, calculate the temperature at which its rate constant is 9.15 × 10−4 s−1.

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 first order rate constant for a reaction at 790 oC is 4.05e-03 s-1. If the...

The first order rate constant for a reaction at 790 oC is 4.05e-03 s-1. If the activation energy for the reaction is 255 kJ/mol, what is the rate constant at 890 oC? k =  s-1

Methyl Acetate reacts in alkaline solution to produce acetate and methanol according to the reaction below:...

Methyl Acetate reacts in alkaline solution to produce acetate and methanol according to the reaction below: CH3COOCH3(aq) + OH-(aq) → CH3COO-(aq) + CH3OH (aq) i) In an experiment, the concentration of methyl acetate was monitored as a function of time. The data is given in the table below. Complete the table below by converting the concentration data to an appropriate form that can be plotted to determine whether this reaction is first or second order. Show one example calculation for...

If a first order reaction has a rate constant of 4.15 X 10-2 s-1 at a...

If a first order reaction has a rate constant of 4.15 X 10-2 s-1 at a temperature of 24.5oC, what would the value of k be if the reaction temperature was changed to 52oC given that the activation energy is 67.8 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. Find the fraction of the ethyl chloride that decomposes in 19 minutes at this temperature. Express your answer using one significant figure.

Find the temperature at which the rate of the reaction would be twice as fast.Ethyl chloride...

Find the temperature at which the rate of the reaction would be twice as fast.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. Part A Find the value of the specific rate constant at 700 K . Part B Find the fraction of the ethyl chloride that decomposes in 20 minutes at this temperature.[C2H5Cl]0−[C2H5Cl]t[C2H5Cl]0[C2H5Cl]0−[C2H5Cl]t[C2H5Cl]0 Part C= Find the temperature at which the rate of the reaction would be...

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)

A second‐order reaction was observed. The reaction rate constant at 3 °C was found to be...

A second‐order reaction was observed. The reaction rate constant at 3 °C was found to be 8.9 x 10‐3 L/mol and 7.1 x 10‐2 L/mol at 35 °C. What is the activation energy of this reaction?