= 10.3. Suppose that a reaction of stoichiometry A + B Y + Z is believed to occur according to the mechanism k₁ A X k_i k₂ X+BY+Z Apply the steady-state treatment and obtain an expression for the rate. To what expressions does the general rate equation reduce if a. The second reaction is slow, the initial equilibrium being established very rapidly? b. The second reaction is very rapid compared with the first reaction in either direction?

= 10.3. Suppose that a reaction of stoichiometry A + B Y + Z is believed to occur according to the mechanism k₁ A X k_i k₂ X+BY+Z Apply the steady-state treatment and obtain an expression for the rate. To what expressions does the general rate equation reduce if a. The second reaction is slow, the initial equilibrium being established very rapidly? b. The second reaction is very rapid compared with the first reaction in either direction?

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...

See similar textbooks

Similar questions

Only b.) solving is provided, can you provide for a, b, and c The reaction2NO(g) 1 O2(g) h 2NO2(g)exhibits the rate lawRate 5 k[NO]2[O2] Which of the following mechanisms is consistent with thisrate law?a. NO 1 O2 h NO2 1 O SlowO 1 NO h NO2 Fastb. NO 1 O2 m NO3 Fast equilibriumNO3 1 NO h 2NO2 Slowc. 2NO h N2O2 SlowN2O2 1 O2 h N2O4 FastN2O4 h 2NO2 Fastd. 2NO m N2O2 Fast equilibriumN2O2 h NO2 1 O SlowO 1 NO h NO2 Fast
For the overall reaction: 2 NO (g) + 2 H2 (g) → N2 (g) + 2 H20 (g) The following 3-step reaction mechanism was proposed. 2 NO N,O2 (fast equilibrium) N,O, + H, N,0 + H;O (slow) N,0 + H, N3 + H,O (fast) not used in rate а. What is the rate limiting step. b. Are there any intermediates or catalysts if so which are they? What is the rate law for the reaction? It must use species present in the overall reaction only (aka no intermediates). * с.
For the standard Michaelis-Menten (MM) model (See image)If the experimenter accidentally setups the reaction such that [S]0 is not much greater than [E]0, derive the initial velocity of product formation, V0.
The reaction 2 N205(g) → 4 NO2(g) + O2(g) was studied and the rate of change of the concentration of O2 was found to be 3.65 mol L 15-1. Calculate the reaction rate (in mol L1s1). Reaction rate = i mol L-1s-1. eTextbook and Media Save for Later Attempts: 0 of 3 used Submit Answer
The overall gas phase reaction 3A --> B + 2C occurs via the following sequence of elementary steps 2A <--> I1 + B k1,k2 A + I1 --> 2I2 k2 I2 --> C k3 1. write an expression for the overall reaction rate, r, in terms of the rate step 3, r3 2. using the answer from 1, obtain an expression for the reaction rate, r, in terms of rate constants and concentrations of reactants and products, only use PSSH. 3. State the. specific inequality the must be satisfied for each of the following assumptions to hold, and use it to simplify the general rate expression from question 2. i) Step 1 is quasi-equilibrium ii) Step 1 is irreversible
Consider the reaction data. A-products T (K)& (s- 325 0.376 875 0.719 What two points should be plotted to graphically determine the activation energy of this reaction? To avoid rounding errors, use at least three significant figures in all values. yi = X2 = Determine the rise, run, and slope of the line formed by these points. rise: run: slope: What is the activation energy of this reaction? J/mol Ea =
Which of the following is the intermediate for the following reaction? A) I B) II C) III D) IV
How do you write the overall rate law with the k value specific to this reaction?
we now have: Step 1: Fast, reversible HA = H+ + A- Step 2: Fast, reversible X + H+ = HX+ Step 3: Slow HX+ = productsrate= k3 k2/k-2 [X][HX+] Does the current rate law contain an intermediate?
tab esc slock ||| = OKINETICS AND EQUILIBRIUM Writing the rate law implied by a simple mechanism with an initi.... Suppose the formation of dinitrogen pentoxide proceeds by the following mechanism: step elementary reaction 1 NO₂ (g) + O₂ (g). -NO₂(g) + O₂(g) k₁ 2 NO₂ (g) + NO₂ (g) → N₂O5 (g) k₂ Suppose also k₁ «k₂. That is, the first step is much slower than the second. Write the balanced chemical equation for the overall chemical reaction. BE 1 Write the experimentally- observable rate law for the overall chemical reaction. Note: your answer should not contain the concentrations of any intermediates. Explanation Q A @ 2 Check W S X # 3 E 0 rate = k 14 D $ 4 rate constant > R F % 5 © Stv T MacBook Pro 6 G We Y & 7 H 0-0 U 00 Ⓒ2022 McGraw Hill LLC. All R You * 00 00 8 S a (
I rate Method: Explain how to get the rate law trom calculate the orders (step by step) and the value of k including units caction of A +B C D А. М 20 10 10 B, M 15 45 Rate, M/s 4.88 х 10- 7.37 x 10 2.45 x 10 Run 2 .15
Rate = k [A] [B]² Overall reaction order would be A. 0 В. 1 С. 3 D. 2 What is the connection between rate and temperature ? A. There is no connection between the two B. Rate is indirectly connected to temperature C. Rate is directly related to temperature in exothermic reactions and indirectly related to temperature in endothermic reactions D. Rate is directly connected to temperature E. Rate is indirectly related to temperature in exothermic reactions and directly related to temperature in endothermic reactions