For the reaction: 2 NOCI(g) 2 NO(g) + Cl2(g), the rate constant values were determined at two temperatures. At 127°C, the rate constant was 6.9 x 10-4/s while at 77°C, the rate constant was 9.3 x 10-6/s. (Note: Use the Arrhenius Equation pertaining rate constants at different temperatures in your calculations for this application) (29a) In blank #1, type-in your answer for the activation energy of the reaction. The unit is Joules, but enter only the value in numerals with three significant figures and with scientific notation using "E" instead of "x10^". (for example, the speed of light is 3.00E+8). ------> (29b) In blank#2, type-in your answer for the rate constant for the same reaction at 202 degrees Celcius. No need to include units in your answer. Just enter the value of the answer in numerals with three significant figures and using scientific notation. Please use "E" instead of "x10^"; for example, the

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#29) Arrhenius Equation and Activation Energy
For the reaction: 2 NOCI(g) ------ > 2 NO(g)
Cl2(g), the rate constant values were determined at
two temperatures. At 127°C, the rate constant was 6.9 x 10-4/s while at 77°C, the rate constant was
9.3 x 10-6/s. (Note: Use the Arrhenius Equation pertaining rate constants at different
temperatures in your calculations for this application)
(29a) In blank #1, type-in your answer for the activation energy of the reaction. The unit is Joules,
but enter only the value in numerals with three significant figures and with scientific notation using
"E" instead of "x10^". (for example, the speed of light is 3.00E+8).
(29b) In blank#2, type-in your answer for the rate constant for the same reaction at 202 degrees
Celcius. No need to include units in your answer. Just enter the value of the answer in numerals with
three significant figures and using scientific notation. Please use "E" instead of "x10^"; for example,
the speed of light in wait
+
Transcribed Image Text:#29) Arrhenius Equation and Activation Energy For the reaction: 2 NOCI(g) ------ > 2 NO(g) Cl2(g), the rate constant values were determined at two temperatures. At 127°C, the rate constant was 6.9 x 10-4/s while at 77°C, the rate constant was 9.3 x 10-6/s. (Note: Use the Arrhenius Equation pertaining rate constants at different temperatures in your calculations for this application) (29a) In blank #1, type-in your answer for the activation energy of the reaction. The unit is Joules, but enter only the value in numerals with three significant figures and with scientific notation using "E" instead of "x10^". (for example, the speed of light is 3.00E+8). (29b) In blank#2, type-in your answer for the rate constant for the same reaction at 202 degrees Celcius. No need to include units in your answer. Just enter the value of the answer in numerals with three significant figures and using scientific notation. Please use "E" instead of "x10^"; for example, the speed of light in wait +
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