Ethyl chloride, CH3CH2Cl, used to produce tetraethyllead gasoline additive, decomposes when heated to give ethylene and hydrogen chloride. CH3CH2Cl(g) → C2H4(g) + HCl(g) The reaction is first order. In an experiment, the initial concentration of ethyl chloride was (2.300x10^-3) M. After heating at 500 °C, for (2.850x10^2) s, this was reduced to (8.30x10^-4) M. What was the concentration of ethyl chloride after a total of (3.7600x10^2) s? Express your answer to three significant figures. Just enter the number (e.g. 2.48x10^-4) and the unit. Note: Your answer is assumed to be reduced to the highest power possible.
Ethyl chloride, CH3CH2Cl, used to produce tetraethyllead gasoline additive, decomposes when heated to give ethylene and hydrogen chloride.
CH3CH2Cl(g) → C2H4(g) + HCl(g)
The reaction is first order. In an experiment, the initial concentration of ethyl chloride was (2.300x10^-3) M. After heating at 500 °C, for (2.850x10^2) s, this was reduced to (8.30x10^-4) M. What was the concentration of ethyl chloride after a total of (3.7600x10^2) s? Express your answer to three significant figures.
Just enter the number (e.g. 2.48x10^-4) and the unit.
The given reaction is :
CH3CH2Cl(g) → C2H4(g) + HCl(g)
The reaction is first order.
The initial concentration of ethyl chloride = (2.300 x 10-3) M
Time for it is heated = (2.850 x 102) s
The concentration of ethyl chloride after (2.850 x 102) s = 8.30 x 10-4 M
We have to calculate the concentration of ethyl chloride after a total of (3.7600 x 102) s
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