7) What is a zero order reactant? (For example, [A]°) a) changing the concentration of A will have no effect on the reaction rate. (If concentration of A doubles or triples, reaction time does not change.) b) increasing the concentration of A will increase the reaction rate by the same amount. (If concentration of A doubles, reaction time halves, if concentration of A triples, new reaction time = 1/3 old reaction time.) c) changing the concentration of A will change the reaction rate to the power of that increase. (If concentration doubles, original reaction rate = new reaction rate to the power of 2, if concentration triples, original reaction rate = new reaction rate to the power of 3) d) a reactant that has been omitted from the reaction 8) What is a first order reactant? (For example, [A]') a) changing the concentration of A will have no effect on the reaction rate. (If concentration of A doubles or triples, reaction time does not change.) b) increasing the concentration of A will increase the reaction rate by the same amount. (If concentration of A doubles, reaction time halves, if concentration of A triples, new reaction time = 1/3 old reaction time.) c) changing the concentration of A will change the reaction rate to the power of that increase. (If concentration doubles, original reaction rate = new reaction rate to the power of 2, if concentration triples, original reaction rate = new reaction rate to the power of 3) d) there is only one reactant in the reaction
7) What is a zero order reactant? (For example, [A]°) a) changing the concentration of A will have no effect on the reaction rate. (If concentration of A doubles or triples, reaction time does not change.) b) increasing the concentration of A will increase the reaction rate by the same amount. (If concentration of A doubles, reaction time halves, if concentration of A triples, new reaction time = 1/3 old reaction time.) c) changing the concentration of A will change the reaction rate to the power of that increase. (If concentration doubles, original reaction rate = new reaction rate to the power of 2, if concentration triples, original reaction rate = new reaction rate to the power of 3) d) a reactant that has been omitted from the reaction 8) What is a first order reactant? (For example, [A]') a) changing the concentration of A will have no effect on the reaction rate. (If concentration of A doubles or triples, reaction time does not change.) b) increasing the concentration of A will increase the reaction rate by the same amount. (If concentration of A doubles, reaction time halves, if concentration of A triples, new reaction time = 1/3 old reaction time.) c) changing the concentration of A will change the reaction rate to the power of that increase. (If concentration doubles, original reaction rate = new reaction rate to the power of 2, if concentration triples, original reaction rate = new reaction rate to the power of 3) d) there is only one reactant in the reaction
Chemistry
10th Edition
ISBN:9781305957404
Author:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste
Publisher:Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste
Chapter1: Chemical Foundations
Section: Chapter Questions
Problem 1RQ: Define and explain the differences between the following terms. a. law and theory b. theory and...
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![**7) What is a zero order reactant? (For example, [A]^0)**
a) Changing the concentration of A will have no effect on the reaction rate. (If concentration of A doubles or triples, reaction time does not change.)
b) Increasing the concentration of A will increase the reaction rate by the same amount. (If concentration of A doubles, reaction time halves; if concentration of A triples, new reaction time = 1/3 old reaction time.)
c) Changing the concentration of A will change the reaction rate to the power of that increase. (If concentration doubles, original reaction rate = new reaction rate to the power of 2; if concentration triples, original reaction rate = new reaction rate to the power of 3)
d) A reactant that has been omitted from the reaction
**8) What is a first order reactant? (For example, [A]^1)**
a) Changing the concentration of A will have no effect on the reaction rate. (If concentration of A doubles or triples, reaction time does not change.)
b) Increasing the concentration of A will increase the reaction rate by the same amount. (If concentration of A doubles, reaction time halves; if concentration of A triples, new reaction time = 1/3 old reaction time.)
c) Changing the concentration of A will change the reaction rate to the power of that increase. (If concentration doubles, original reaction rate = new reaction rate to the power of 2; if concentration triples, original reaction rate = new reaction rate to the power of 3)
d) There is only one reactant in the reaction](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fd9a2776d-a528-4478-be0e-235d689690c2%2F70bdd841-3adb-4bff-9be3-7d94d01bce91%2F9nlvs1p_processed.jpeg&w=3840&q=75)
Transcribed Image Text:**7) What is a zero order reactant? (For example, [A]^0)**
a) Changing the concentration of A will have no effect on the reaction rate. (If concentration of A doubles or triples, reaction time does not change.)
b) Increasing the concentration of A will increase the reaction rate by the same amount. (If concentration of A doubles, reaction time halves; if concentration of A triples, new reaction time = 1/3 old reaction time.)
c) Changing the concentration of A will change the reaction rate to the power of that increase. (If concentration doubles, original reaction rate = new reaction rate to the power of 2; if concentration triples, original reaction rate = new reaction rate to the power of 3)
d) A reactant that has been omitted from the reaction
**8) What is a first order reactant? (For example, [A]^1)**
a) Changing the concentration of A will have no effect on the reaction rate. (If concentration of A doubles or triples, reaction time does not change.)
b) Increasing the concentration of A will increase the reaction rate by the same amount. (If concentration of A doubles, reaction time halves; if concentration of A triples, new reaction time = 1/3 old reaction time.)
c) Changing the concentration of A will change the reaction rate to the power of that increase. (If concentration doubles, original reaction rate = new reaction rate to the power of 2; if concentration triples, original reaction rate = new reaction rate to the power of 3)
d) There is only one reactant in the reaction
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