Chapter 14 Test Flashcards
Using the following data for the reaction 2NO(g) + Br2(g) → 2NOBr(g), what are the values of m, n, and k in the rate law rate = k[ NO]m [Br2 ]n?
m = 2, n = 1, k = 9.8 M −2 • s−1
Hydrogen gas reacts with iodine chloride to form iodine and hydrogen chloride as given by the balanced equation below:
H2(g) + 2ICl(g) → I2(g) + 2HCl(g)
The rate of the reaction can be measured in terms of the rate of decrease of [H2 ]. Using the graph below, calculate the average reaction rate for the time period 0.00 − 2.00 seconds.
0.237 M / s
The following reaction is second order in [A] and second order overall.
2A → B + C
The instantaneous rate of reaction is 1.8 × 10−3 M / s when [A] is equal to 0.63 M. What is the rate constant, k, of this reaction?
4.5 × 10^−3 M −1s−1
Bromate ions (BrO3− ) react with bromide and hydrogen ions according to the following equation.
BrO3− (aq) + 5Br− (aq) + 6H + (aq) → 3Br2(aq) + 3H2O(l)
Based on this reaction, which of the following relationships is true?
d [Br2 ] / dt = (−3/5) (d [Br− ] / dt)
For the hypothetical reaction:
2A + xB -> yC + zD
Use the following rates to calculate x, y, and z [A]/t = -0.062 M/s [B]/t = -0.186 M/s [C]/t = 0.093 M/s [D]/t = 0.031 M/s
x = 6 y = 3 z = 2
Iodide ions react with hypochlorite ions according to the following equation:
I − (aq) + OCl − (aq) → IO− (aq) + Cl − (aq)
A scientist gathers the following initial rate data for the reaction:
If the reaction is first order in [ I − ] and first order in [OCl − ], what is the missing value in the table?
3.2 × 10^−2 M / s
Ammonium ions react with nitrite ions according to the following equation:
A scientist gathers the following initial rate data for the reaction.
What is the rate constant, k, for this reaction?
2.7 × 10^−4 M −1s−1
Suppose you are studying the following reaction.
X → Y + Z
You gather the following initial rate data.
What is the half-life of the reaction?
1.3 s
Cyclobutane (C4H8 ) forms ethylene (C2H4 ) according to the following equation.
C4H8 → 2C2H4
The half-life of this first-order reaction is 22.7 s. If the initial concentration of C4H8 is 1.42 M, what will be the rate of reaction at t = 60 s?
7.0 × 10^−3 M / s
Phosphorus-32 is a radioactive isotope that decays according to the following reaction.
32P →32S + e−
The graph above shows ln [32P] versus time. What is the rate law of the decay of 32P?
rate = (4.9 × 10^−2 days−1 ) • [32P]
Substance P undergoes the following reaction.
2P → Q + R
The graph above shows a plot of 1 / [P] versus time. What is the rate law of the reaction?
rate = (4.0 × 10^−2 M −1hr−1 ) • [P]2.
In the Arrhenius equation the “A” is
the frequency factor
For many reactions involving enzymes (E) reacting with substrates (S) to form products (P), steady state approximations can be applied to derive the rate law:
Which of the following shows the rate law when the concentration of substrate is very large in relation to the k values?
rate = kobs[E]0
______ is an enzyme in blood which catalyzes the same reaction as iodide ion and manganese(IV) oxide.
catalase
Why is the reaction 2NO2(g) + F2(g) → 2FNO2(g) extremely unlikely to proceed as a single elementary step?
Termolecular reactions are exceedingly unlikely
