A→products, the following data give [A] as a function of time: t=0s, [A]=0.600M; 100 s, 0.497...

a.) The rate constant for the reaction is 0.460 M–1·s–1 at 200 °C. A--> products. If...

a.) The rate constant for the reaction is 0.460 M–1·s–1 at 200 °C. A--> products. If the initial concentration of A is 0.00680 M. what is the concentration after 315 s? b.)The rate constant for this zero-order reaction is 0.0190 M·s–1 at 300 °C. A--> products. How long (in seconds) would it take for the concentration of A to decrease from 0.800 M to 0.240 M? c.)The rate constant for this second-order reaction is 0.520 M–1·s–1 at 300 °C. A-->...

a.) The rate constant for the reaction is 0.460 M–1·s–1 at 200 °C. A--> products. If...

a.) The rate constant for the reaction is 0.460 M–1·s–1 at 200 °C. A--> products. If the initial concentration of A is 0.00680 M. what is the concentration after 315 s? b.)The rate constant for this zero-order reaction is 0.0190 M·s–1 at 300 °C. A--> products. How long (in seconds) would it take for the concentration of A to decrease from 0.800 M to 0.240 M? c.)The rate constant for this second-order reaction is 0.520 M–1·s–1 at 300 °C. A-->...

The data below show the concentration of ABversus time for the following reaction: AB(g)→A(g)+B(g) Time (s)...

The data below show the concentration of ABversus time for the following reaction: AB(g)→A(g)+B(g) Time (s) [AB] (M) 0 0.950 50 0.459 100 0.302 150 0.225 200 0.180 250 0.149 300 0.128 350 0.112 400 0.0994 450 0.0894 500 0.0812 Determine the order of the reaction.

For A --> products, time and concentration data were collected and plotted as shown here. [A]...

For A --> products, time and concentration data were collected and plotted as shown here. [A] M.....t (s) .650 ..... 0.0 .575 ..... 30.0 .500 ..... 60.0 .425 ..... 90.0 Determine the reaction order, the rate constant, and the units of the rate constant. Reaction Order = ? k= ? I am having trouble figuring out the rate and reaction order. Please Help! Explain how you got the answer.

The decomposition of ammonia on a platinum surface at 1129 K occurs according to the following...

The decomposition of ammonia on a platinum surface at 1129 K occurs according to the following reaction: 2 NH3(g) --> N2(g) + 3 H2(g). It occurs via zero order kinetics. Use the following kinetic data which report the variation of ammonia concentration in the gas phase with time "t" to evaluate the rate constant for the reaction at 1129 K. 103[NH3] (in M) 2.10 1.85 1.47 1.23 .86 .57 .34 t/s 0 200 400 600 800 1000 1200 Suggest why...

Time(s) Concentration (M) N2O5 NO2 O2 0 0.0200 0 0 100 0.0169 0.0063 0.0016 200 0.0142...

Time(s) Concentration (M) N2O5 NO2 O2 0 0.0200 0 0 100 0.0169 0.0063 0.0016 200 0.0142 0.0115 0.0029 300 0.0120 0.0160 0.0040 400 0.0101 0.0197 0.0049 500 0.0086 0.0229 0.0057 600 0.0072 0.0256 0.0064 700 0.0061 0.0278 0.0070 Concentrations as a Function of Time at 55 ∘ for the Reaction 2N2O5(g)⟶4NO2(g)+O2(g) A) Use the data in the table to calculate the average rate of decomposition of N2O5 during the time interval 100-200 s B) Use the data in the table...

For the one step reaction X → products Successive half-lives are observed to be 1.88 s,...

For the one step reaction X → products Successive half-lives are observed to be 1.88 s, 3.76 s and 7.52 s for an experiment in which [X]0 = 1.3 M. a. What is the order of the reaction? (enter 0,1,2 etc) This reactions is  order. b. What is the value for k, the rate constant? k = c. Calculate the [X] at 1.9 s [X] at 1.9 s = Please show work/reasoning

Data for the decomposition of hydrogen peroxide at some set temperature T is include below. The...

Data for the decomposition of hydrogen peroxide at some set temperature T is include below. The rate law depends only on the concentration of H2O2. Answer questions 6, 7 and 8. 2 H2O2 ---> 2 H2O + O2 t (seconds)   0     ,   60    ,  120  ,   180 , 240 ,   360  ,   420 , 600 [H2O2] (M) 0.882, 0.697, 0.566 ,0.458, 0.372, 0.236, 0.188, 0.094 What is the value of the rate constant K? What is the half life of the reaction when the initial concentration...

A chemical reaction is known to have a general rate equation of the form: Rate=k[A]n Use...

A chemical reaction is known to have a general rate equation of the form: Rate=k[A]n Use the following data to answer the two questions below. Determine the order of reactant A. Time (s) [A] mol/L 0 0.2 100 0.1570 200 0.1292 300 0.1098 400 0.0954 500 0.0844 600 0.0756 700 0.0685 800 0.0627 900 0.0577 1000 0.0535 A. First Order B. Second Order C. Zero Order D. That's an Order! Determine the rate constant k. State your answer to three...

The following data were obtained in a kinetic run from the decomposition of gaseous dinitrogen pentoxide...

The following data were obtained in a kinetic run from the decomposition of gaseous dinitrogen pentoxide at a set temperature. 2N2O5(g) = 4NO2(g) + O2(g) Time (s) 0 100 200 300 400 500 600 700 [N2O5]     0.0200 0.0169 0.0142 0.0120 0.0101 0.0086 0.0072 0.0061 a.Graphically determine the order of the reaction. b.Calculate the rate constant for the reaction. c.Calculate the concentration of dinitrogen pentoxide in the reaction vessel after 350 seconds.