A reaction is found to be 2nd order with respect to cyanide ion. If the concentration of cyanide ion is 0.175M after 16.9 seconds have passed, and the rate law constant is 0.0201 M/sec, what was the initial concentration of cyanide ion?
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A reaction is found to be 2nd order with respect to cyanide ion. If the concentration...
A reaction is found to be 0th order with respect to thiosulfate ion. If the concentration of thiosulfate ion is 0.159M after 20.5 seconds have passed, and the rate law constant is 0.0175 M/sec, what was the initial concentration of thiosulfate ion?
A reaction is found to be 1st order with respect to perbromate ion. If the initial concentration of perbromate ion is 0.863M and the rate law constant is 0.0221 M/sec, what will the concentration of perbromate ion be after 20.9 seconds have passed?
Question 1 0 / 0.0001 points A reaction is found to be 2nd order with respect to phosphite ion. If the initial concentration of phosphite ion is 0.891M and the rate law constant is 0.0401 M/sec, how many seconds must pass before the concentration of phosphite ion drops to 0.319M? Answer:
A reaction is found to be 1st order with respect to carbonate ion. If the initial concentration of carbonate ion is 0.873M and the rate law constant is 0.0197 M/sec, how many seconds must pass before the concentration of carbonate ion drops to 0.339M?
A reaction is found to be 1st order with respect to carbonate ion. If the initial concentration of carbonate ion is 0.871M and the rate law constant is 0.0203 M/sec, how many seconds must pass before the concentration of carbonate ion drops to 0.343M?
The reaction, A → products, is known to be zeroth order with respect to the concentration of A and zeroth order overall. The rate constant for the reaction is 0.0750 M·hr-1 at a certain temperature. If the initial concentration of A is 0.875 M. What will be the concentration of A after 10.0 hr? Answer M How long would it take for 80.0% of the starting material (A) to undergo reaction? Answer hr The reaction, A → products, is known...
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 1.73 M, what is the concentration after 133 seconds?
The reaction A(aq) → B(aq) is a first order reaction with respect to A(aq). The concentration of A(aq) after 100.0 seconds of reaction is 0.967 M and the concentration of A(aq) after 400.0 seconds of reaction is 0.741 M. What will be the concentration of A(aq) after 811.0 seconds of reaction?
The reaction A(aq) → B(aq) is a first order reaction with respect to A(aq). The concentration of A(aq) after 100.0 seconds of reaction is 0.912 M and the concentration of A(aq) after 400.0 seconds of reaction is 0.750 M. What will be the concentration of A(aq) after 879.0 seconds of reaction?
(a)The reaction A(aq) → B(aq) is a first order reaction with respect to A(aq). The concentration of A(aq) after 100.0 seconds of reaction is 0.970 M and the concentration of A(aq) after 400.0 seconds of reaction is 0.715 M. What will be the concentration of A(aq) after 817.6 seconds of reaction? (b) The reaction A(aq) → B(aq) + C(aq) is a first order reaction with respect to A(aq). The half-life of A(aq) is 81.8 s at 25.0oC. Its activation energy...