question 14 only please 13. Only the =O, but not the N=N, in the air reacts with the H2S. Which of the following is the bestexplanation for this behavior?A. The kinetic energy of oxygen molecules is greater than the kinetic energy of nitrogen molecules.B. N2 molecules are lighter than O2 so they collide with the H2S with less momentum.C. The activation energy for the reaction with N2 is too big because of the very strong triple bond.D. The concentration of N, in the atmosphere is less than the concentration of O2.14. The reaction mechanism for the reaction 2 H2S(g) + 302(g) 2 2 SO2(8) + 2 H20(g) containsover 170 (!) elementary steps. One of the important steps is shown below together with its rate law.2 SO(g) → OSO(g) + S(g)Rate = 2.0 x 109 x exp(-16720/RT) x[So]?.Which one of the following statements about this elementary step is incorrect?A. The rate constant is equal to 2.0 x 109 x exp(-16720/RT).B. The collision SO + SO has a higher probability of leading to a reaction than does the collision SO + OS.C. The fraction of collisions between A and B that lead to a reaction is equal to exp(-16720/RT).D. The number of collisions per second between A and B is equal to 2.0 x 10°.

Using the postulates of collision theory and arrhenius equation we can solve this problem.

14. The reaction mechanism for the reaction 2 H2S(g) + 302(8) 2 2 SO2(8) + 2 H20(g) contains over 170 (!) elementary steps. One of the important steps is shown below together with its rate law. 2 SO(g) → OSO(g) + S(g) Rate = 2.0 x 109 x exp(-16720/RT) x [So]?. Which one of the following statements about this elementary step is incorrect? A. The rate constant is equal to 2.0 x 109 x exp(-16720/RT). B. The collision SO + SO has a higher probability of leading to a reaction than does the collision SO + OS. C. The fraction of collisions between A and B that lead to a reaction is equal to exp(-16720/RT). D. The number of collisions per second between A and B is equal to 2.0 × 10°.

14. The reaction mechanism for the reaction 2 H2S(g) + 302(8) 2 2 SO2(8) + 2 H20(g) contains over 170 (!) elementary steps. One of the important steps is shown below together with its rate law. 2 SO(g) → OSO(g) + S(g) Rate = 2.0 x 109 x exp(-16720/RT) x [So]?. Which one of the following statements about this elementary step is incorrect? A. The rate constant is equal to 2.0 x 109 x exp(-16720/RT). B. The collision SO + SO has a higher probability of leading to a reaction than does the collision SO + OS. C. The fraction of collisions between A and B that lead to a reaction is equal to exp(-16720/RT). D. The number of collisions per second between A and B is equal to 2.0 × 10°.

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

1. نه 3. A
Which of the following statements is a feature of scaled particle theory? a) The work required to insert a solute into a solvent depends on the solute's volume only b) The work required to insert a solute into a solvent depends on the solute's accessible surface area only c) High molecular-weight compounds cross biological membranes more easily than low- molecular weight ones d) A large particle has the same surface area-to-volume ratio as a small particle e) Particles in solution pay an energetic penalty to create a cavity in the solvent
What is the scientific method answers to the freezing point of water
I am required to enter answers in each box provided for the question. The answer that was provided is not correct.
10 11 12 13 14 15 16 17 18 19 The particles in a gas vibrate faster than the particles in a liquid. O True O False 5.
f) 0 Baz OEt ? OEt
The answer is incorrect can you solve again?
CH,N, Et,0, CH,Cl, 30 min HO,
2. The following eight structures are all isomers of C6H14O. Each structure corresponds to one of the predicted ¹H NMR spectra pictured on the next two pages of this document. The integral values for each peak are next to that peak. Indicate which structure matches each spectrum by drawing the structures in the boxes along the right side of the pages. Use the letter codes provided to label the chemically equivalent hydrogens on the structures. One example is provided. Xor A 2H 1H <- A 4H -3₂₂ OH B 2H tot 2 PPM PPM -N 2 PPM N- -~ B 12H DE C 2H 2H 1H B 4H 6H ха по мон F 6H B B B w
Show ALL your steps and details in your calculations, by using GRASPS: Given, Required, Analysis, Solution, and Paraphrase. Answer in complete sentences and therefore statements. Show All of your work, in full solutions
Am I wrong? Or is both answers correct?
The last 2 questions please