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.
Homework Answers
The True statement concerning second order Reactions is :
- B. A plot of the resiprocal of Concentration vs. Time will be a straight line.
Add Answer to:
Which of the following statements is
true concerning second order reactions?
A. A plot of concentration...
Most of the time, the rate of a reaction depends on the concentration of the reactant....
Most of the time, the rate of a reaction depends on the
concentration of the reactant. In the case of second-order
reactions, the rate is proportional to the square of the
concentration of the reactant.
Select the image to explore the simulation, which will help you
to understand how second-order reactions are identified by the
nature of their plots. You can also observe the rate law for
different reactions.
In the simulation, you can select one of the three different...
The reaction below was monitored as a function of time at 25 °C: AB ----> A...
The reaction below was monitored as a function of time at 25 °C: AB ----> A + B A plot of ln[AB] vs. time yields a straight line with slope = -0.0025 sec-1. What is the value of the rate constant (k) for this reaction at this temperature? Write the rate law for this reaction. What is the half-life (t1/2)? If the initial concentration of AB is 0.500 M, what is the concentration after 300 sec? If the reaction is...
Which of the following statements about the half-life of a reaction are true? Ob. None of...
Which of the following statements about the half-life of a reaction are true? Ob. None of the above are true. O a. The half-life of a first-order reaction increases with time. Oc. A zero-order reaction doesn't have a half-life. d. The half-life doesn't depend on the order of the reaction. The half-life of a second-order reaction is independent of time. e. A given reaction has rate law rate = k[A]2[B]1/2. If the instantaneous rate of reaction is 0.034 Mis when...
The integrated rate laws for zero-, first-, and second-order reaction may be arranged such that they...
The integrated rate laws for zero-, first-, and second-order reaction may be arranged such that they resemble the equation for a straight line, y=mx+by=mx+b. Order Integrated Rate Law Graph Slope 0 [A]=−kt+[A]0[A]=−kt+[A]0 [A] vs. t[A] vs. t −k 1 ln[A]=−kt+ln[A]0ln[A]=−kt+ln[A]0 ln[A] vs. tln[A] vs. t −k 2 1[A]= kt+1[A]01[A]= kt+1[A]0 1[A] vs. t1[A] vs. t k Part A The reactant concentration in a zero-order reaction was 8.00×10−2 MM after 130 ss and 4.00×10−2 MM after 380 ss . What is...
The integrated rate laws for zero-, first-, and second-order reaction may be arranged such that they...
The integrated rate laws for zero-, first-, and second-order reaction may be arranged such that they resemble the equation for a straight line, y=mx+by=mx+b. Order Integrated Rate Law Graph Slope 0 [A]=−kt+[A]0[A]=−kt+[A]0 [A] vs. t[A] vs. t −k−k 1 ln[A]=−kt+ln[A]0ln[A]=−kt+ln[A]0 ln[A] vs. tln[A] vs. t −k−k 2 1[A]= kt+1[A]01[A]= kt+1[A]0 1[A] vs. t1[A] vs. t kk A.) The reactant concentration in a zero-order reaction was 0.100 MM after 165 ss and 4.00×10−2 MM after 305 ss . What is the...
+ Half-life for First and Second Order Reactions 11 of 11 The half-life of a reaction,...
+ Half-life for First and Second Order Reactions 11 of 11 The half-life of a reaction, t1/2, is the time it takes for the reactant concentration A to decrease by half. For example, after one half-Me the concentration falls from the initial concentration (Alo to A\o/2, after a second half-life to Alo/4 after a third half-life to A./8, and so on. on Review Constants Periodic Table 11/25 For a second-order reaction, the half-life depends on the rate constant and the...
What is the difference between a first order and a second order reaction? a. For a...
What is the difference between a first order and a second order reaction? a. For a first order reaction, plotting the natural logarithm of A versus time always gives a straight line with a slope equal to -k For a second order reaction a plot of 1 / A versus time, will produce a straight line with a slope equal to k b. For a first order reaction, plotting the natural logarithm of A versus time always gives a straight...
The reaction A ---> products was studied at a series of different temperatures. A plot of...
The reaction A ---> products was studied at a series of different temperatures. A plot of ln(k) vs. 1/T gave a straight line relationship with a slope of -882 and a y-intercept of -0.649. Additionally, a study of the concentration of A with respect to time showed that only a plot of 1/[A] vs. time gave a straight line relationship. What is the initial rate of this reaction when [A] = 0.45 at 283 K? rate (Ms-1) = _______
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...
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?
Most of the time, the rate of a reaction depends on the
concentration of the reactant. In the case of second-order
reactions, the rate is proportional to the square of the
concentration of the reactant.
Select the image to explore the simulation, which will help you
to understand how second-order reactions are identified by the
nature of their plots. You can also observe the rate law for
different reactions.
In the simulation, you can select one of the three different...
Which of the following statements about the half-life of a reaction are true? Ob. None of the above are true. O a. The half-life of a first-order reaction increases with time. Oc. A zero-order reaction doesn't have a half-life. d. The half-life doesn't depend on the order of the reaction. The half-life of a second-order reaction is independent of time. e. A given reaction has rate law rate = k[A]2[B]1/2. If the instantaneous rate of reaction is 0.034 Mis when...
+ Half-life for First and Second Order Reactions 11 of 11 The half-life of a reaction, t1/2, is the time it takes for the reactant concentration A to decrease by half. For example, after one half-Me the concentration falls from the initial concentration (Alo to A\o/2, after a second half-life to Alo/4 after a third half-life to A./8, and so on. on Review Constants Periodic Table 11/25 For a second-order reaction, the half-life depends on the rate constant and 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...
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?
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