A reaction is second order and found to be 75% complete after 15 seconds. Find the...

In the second-order decomposition of substance X at 750 K, it is found that 15 %...

In the second-order decomposition of substance X at 750 K, it is found that 15 % of the sample has decomposed in 45 seconds. If the initial concentration of the substance X is 0.046 M Calculate the rate constant. Calculate the half-life. How long will it take for 65 % of X to decompose?

2A → B + C The above reaction is run and found to follow second order...

2A → B + C The above reaction is run and found to follow second order kinetics with a rate constant of 1.30 x 10-3 M-1sec-1. If the initial concentration of A is 1.45 M, what is the concentration after 142 seconds?

A certain first-order reaction is 73 percent complete in 65 seconds. Calculate the rate constant for...

A certain first-order reaction is 73 percent complete in 65 seconds. Calculate the rate constant for this reaction. ____s-1

a certain reaction A > products is second order in A. If this reaction is 85%...

a certain reaction A > products is second order in A. If this reaction is 85% complete in 12 minutes, how long would it take for the reaction to be 15% complete? Please explain A. 110s B. 27s C. 62s D.130s E. 22s

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? 

1.) 2A → B + C The above reaction is run and found to follow second...

1.) 2A → B + C The above reaction is run and found to follow second order kinetics with a rate constant of 1.30 x 10-3 M-1sec-1. If the initial concentration of A is 1.33 M, what is the concentration after 164 seconds? 2.) 2A → B + C Two trials of the above reaction are run with the same initial concentration of A. The first trial is performed at 25oC and the second at 35oC. If the rate constant...

If the concentration of a reactant is 0.0560 M 25.5 seconds after a reaction starts and...

If the concentration of a reactant is 0.0560 M 25.5 seconds after a reaction starts and is 0.0156 M 60.5 seconds after the start of the reaction , how many seconds after the start of the reaction does it take for the reactant concentration to decrease to 0.00450 M? Assume the reaction is first       order in this reactant.

2A → B + C The above reaction is run and found to follow first order...

2A → B + C The above reaction is run and found to follow first order kinetics with a rate constant of 1.30 x 10-3 sec-1. If the initial concentration of A is 1.56 M, what is the concentration after 133 seconds? 2A → B + C The above reaction is run and found to follow zero order kinetics with a rate constant of 1.30 x 10-3 M•sec-1. If the initial concentration of A is 1.51 M, what is the...

The reaction: A -> B+C is known to be second order with respect to A and...

The reaction: A -> B+C is known to be second order with respect to A and to have a rate constant of 0.225 M-1s-1 at 277 K. An experiment was run at this temperature where [A]o = 0.387 M. Calculate the concentration of B after 0.119 seconds has elapsed.

The reaction: A → B + C is known to be second order with respect to...

The reaction: A → B + C is known to be second order with respect to A and to have a rate constant of 0.00255 M-1 s-1 at 285 K. It is also known that ΔGorxn for this reaction is -2.13 kJ. An experiment was run at this temperature where only reactants were present ([A]o = 0.331 M). Calculate ΔGnonstandard after 14.1 seconds has elapsed.