(a) Plot the concentrations listed below as a function of time. Then, plot any other graphs...
- (a) Plot the concentrations listed below as a function of time. Then, plot any other graphs required to verify that the data is consistent with a first-order reaction.
|
time |
concentration |
|
(in minutes) |
(in moles / liter) |
|
0.00 |
1.0000 |
|
1.00 |
0.8607 |
|
2.00 |
0.7408 |
|
3.00 |
0.6376 |
|
4.00 |
0.5488 |
|
5.00 |
0.4724 |
|
6.00 |
0.4066 |
|
7.00 |
0.3499 |
|
8.00 |
0.3012 |
|
9.00 |
0.2592 |
|
10.00 |
0.2331 |
(b) Determine the value of the rate constant k. Write an expression for the rate law.
(c) Determine the time at which the concentration of [A] = 0.500 mol / L. Determine the time at which [A] = 0.250 mol / L. Determine the time at which [A] = 0.125 mol / L.
(d) The half-life for a reaction is the time required for the concentration at some time to decrease by a factor of one-half. The half-life for a first-order reaction is constant, and can be calculated from the value of k. The relationship is t(1/2) = (0.693 / k). Calculate the half-life from the value of k that you determined in (b) above. Can you see that this value is related to the times that you calculated in part (c) above? Explain.
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(a) Plot the concentrations listed below as a function of time.
Then, plot any other graphs...
1. (a) Plot the concentrations listed below as a function of time. Then, plot any other...
1. (a) Plot the concentrations listed below as a function of time. Then, plot any other graphs required to verify that the data is consistent with a first-order reaction. time concentration (in minutes) (in moles / liter) 0.00 1.0000 1.00 0.8607 2.00 0.7408 3.00 0.6376 4.00 0.5488 5.00 0.4724 6.00 0.4066 7.00 0.3499 8.00 0.3012 9.00 0.2592 10.00 0.2331 (b) Determine the value of the rate constant k. Write an expression for the rate law. (c) Determine the time at...
Plot the concentrations listed below as a function of time. Then, plot any other graphs required...
Plot the concentrations listed below as a function of time. Then, plot any other graphs required to verify that the data is consistent with a second-order reaction. time Concentration (in minutes) (in moles / liter) 0.00 1.0000 1.00 0.8696 2.00 0.7692 3.00 0.6896 4.00 0.6250 5.00 0.5714 6.00 0.5263 7.00 0.4878 8.00 0.4545 9.00 0.4255 10.00 0.4000 (b) Determine the value of the rate constant k. Write an expression for the rate law. (c) Determine the time at which [A]...
2. Plot the concentrations listed below as a function of time. Then, plot any other graphs...
2. Plot the concentrations listed below as a function of time. Then, plot any other graphs required to verify that the data is consistent with a second-order reaction. time Concentration (in minutes)(in moles/liter) 0.00 1.0000 1.00 0.8696 2.00 0.7692 3.00 0.6896 4.00 0.6250 5.00 0.5714 6.00 0.5263 7.00 0.4878 8.00 0.4545 9.00 0.4255 10.00 0.40001 (b) Determine the value of the rate constant k. Write an expression for the rate law. (c) Determine the time at which [A] =0.500 mol/L....
This reaction was monitored as a function of time: A rightarrow B + C A plot...
This reaction was monitored as a function of time: A rightarrow B + C A plot of ln[A] versus time yields a straight line with slope -0.0045/s. a. What is the value of the rate constant (k) for this reaction at this temperature? b. Write the rate law for the reaction. c. What is the half-life? d. If the initial concentration of A is 0.250 M, what is the concentration after 225 s?
The reaction below was monitored as a function of time: AB A + B A plot...
The reaction below was monitored as a function of time: AB A + B A plot of ln[AB] vs. time yields a straight line with slope = -0.0025 sec-1 . a) What is the value of the rate constant (k) for this reaction at this temperature? b) Write the rate law for this reaction. c) What is the half-life (t1/2)? d) If the initial concentration of AB is 0.500 M, what is the concentration after 300 sec?
can you do the 6-12 number 8 is multiple choice 6. The initial rates listed in...
can
you do the 6-12 number 8 is multiple choice
6. The initial rates listed in the table below were determined for the reaction CO(g) + NO2(g) + CO2(g) + NO(g) at varied concentration of the reactants, CO and NO2. Determine the rate law of this reaction. Experiment Initial [CO] (mol/L) Initial [NO] (mol/L) Initial rate (mol/Ls) 5.0x10+ 3.5x10 3.4x10-8 5.0x10+ 7.0x10- 6.8x10-8 1.5x10 3.5x10 1.02x10-7 7. The half-life of the reaction C&H:(8) ► 2CH.g) at constant temperature is independent...
The following reaction was monitored as a function of time: A→B+C A plot of ln[A] versus...
The following reaction was monitored as a function of time: A→B+C A plot of ln[A] versus time yields a straight line with slope −4.0×10−3 /s . What is the value of the rate constant (k) for this reaction at this temperature? Write the rate law for the reaction. What is the half-life? If the initial concentration of A is 0.240 M , what is the concentration after 220 s ?
URGENT please show work and write clearly. Thank you. Use the data above to answer the...
URGENT please show work and write clearly. Thank you.
Use the data above to answer the questions.
The original Absorbance vs. Time graph
Absorbance vs. Time (min) 035 Ln(Absorbance) vs. Time (min) y = 1.174681-0.0733 R'9.990 Absoba Ice I absorbat) Time in Time (MI) 1/Absorbance vs. Time Y 0.62518x1.79428 R'-0.987 12Absotele ad Ln Time Absorbance 1/Absorbance Absorbance 0 0.3397 -1.07969 2.943774 1.5366 0.2806 -1.27083 3.563792 2.6937 0.255 -1.36649 3.921569 3.7872 0.2271 -1.48236 4.403347 5.0772 0.2105 -1.55827 4.750594 6.6 0.1809 -1.70981...
Which of the following statements is true concerning second order reactions? A. A plot of concentration...
Which of the following statements is true concerning second order reactions? A. A plot of concentration vs. time will be a straight line. B. A plot of the reciprocal of concentration vs. time will be a straight line. C. A plot of ln of the concentration vs. time will be a straight line. D. None of the statements are true. E. The half-life of the reaction may be calculated using the equation: t1/2 = 1/k.
(a) (3 pts.) Shown below is plot of concentration as a function of time for the...
(a) (3 pts.) Shown below is plot of concentration as a function of time for the reaction A = B. What is the value of the equilibrium constant (Kc) for this reaction? 0.100 0.080 0.060 B 0.040 Concentration (M) A 0.020 0.000 0.00 1.00 2.00 3.00 4.00 5.00 Time (min) (b) (4 pts.) The following pictures represent the equilibrium state for four different reactions of the type A, + X 2 2 AX (X=B, C, D, E) A atoms are...
1. (a) Plot the concentrations listed below as a function of time. Then, plot any other graphs required to verify that the data is consistent with a first-order reaction. time concentration (in minutes) (in moles / liter) 0.00 1.0000 1.00 0.8607 2.00 0.7408 3.00 0.6376 4.00 0.5488 5.00 0.4724 6.00 0.4066 7.00 0.3499 8.00 0.3012 9.00 0.2592 10.00 0.2331 (b) Determine the value of the rate constant k. Write an expression for the rate law. (c) Determine the time at...
2. Plot the concentrations listed below as a function of time. Then, plot any other graphs required to verify that the data is consistent with a second-order reaction. time Concentration (in minutes)(in moles/liter) 0.00 1.0000 1.00 0.8696 2.00 0.7692 3.00 0.6896 4.00 0.6250 5.00 0.5714 6.00 0.5263 7.00 0.4878 8.00 0.4545 9.00 0.4255 10.00 0.40001 (b) Determine the value of the rate constant k. Write an expression for the rate law. (c) Determine the time at which [A] =0.500 mol/L....
This reaction was monitored as a function of time: A rightarrow B + C A plot of ln[A] versus time yields a straight line with slope -0.0045/s. a. What is the value of the rate constant (k) for this reaction at this temperature? b. Write the rate law for the reaction. c. What is the half-life? d. If the initial concentration of A is 0.250 M, what is the concentration after 225 s?
can
you do the 6-12 number 8 is multiple choice
6. The initial rates listed in the table below were determined for the reaction CO(g) + NO2(g) + CO2(g) + NO(g) at varied concentration of the reactants, CO and NO2. Determine the rate law of this reaction. Experiment Initial [CO] (mol/L) Initial [NO] (mol/L) Initial rate (mol/Ls) 5.0x10+ 3.5x10 3.4x10-8 5.0x10+ 7.0x10- 6.8x10-8 1.5x10 3.5x10 1.02x10-7 7. The half-life of the reaction C&H:(8) ► 2CH.g) at constant temperature is independent...
URGENT please show work and write clearly. Thank you.
Use the data above to answer the questions.
The original Absorbance vs. Time graph
Absorbance vs. Time (min) 035 Ln(Absorbance) vs. Time (min) y = 1.174681-0.0733 R'9.990 Absoba Ice I absorbat) Time in Time (MI) 1/Absorbance vs. Time Y 0.62518x1.79428 R'-0.987 12Absotele ad Ln Time Absorbance 1/Absorbance Absorbance 0 0.3397 -1.07969 2.943774 1.5366 0.2806 -1.27083 3.563792 2.6937 0.255 -1.36649 3.921569 3.7872 0.2271 -1.48236 4.403347 5.0772 0.2105 -1.55827 4.750594 6.6 0.1809 -1.70981...
(a) (3 pts.) Shown below is plot of concentration as a function of time for the reaction A = B. What is the value of the equilibrium constant (Kc) for this reaction? 0.100 0.080 0.060 B 0.040 Concentration (M) A 0.020 0.000 0.00 1.00 2.00 3.00 4.00 5.00 Time (min) (b) (4 pts.) The following pictures represent the equilibrium state for four different reactions of the type A, + X 2 2 AX (X=B, C, D, E) A atoms are...
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