Support shift the equilibrium to the left QUESTION 24 A proposed mechanism is: Step 1: C2...
QUESTION 10 A proposed mechanism for the decomposition of ozone in the atmosphere is: Step 1: 03(g) + hvO(g) + O2(g) (fast) Step 2: O(g) + O2(g) +202() (slow) What is the molecularity of the rate-determining step? unimolecular bimolecular zeromolecular More information is needed. termolecular QUESTION 11 At a certain temperature the equilibrium equals 0.11 for the reaction: 2 ICI(g) =12(g) + Cl2(g). What is the equilibrium concentration of Cl2 if 2.78 mol of 12 and 2.78 mol of Cl2...
What is the molecularity of the rate determining step in this mechanism? CH3COOC2H5 + H2O → CH3COOC2H6+ + OH- (Slow) CH3COOC2H6+ → CH3COOH + C2H5+ (Fast) C2H5+ + OH- → C2H5OH (Fast) A. unimolecular B. tetramolecular C. bimolecular D. termolecular E. need additional information
14-99. The mechanism for the reaction 2H,0, (aq) ® 2H,00) +0,) in the presence of I (aq) is proposed to be: Step 1: H,02(aq) + I (aq) ® H,0(0) + Ol (aq) Step 2: H,0, (aq) + 01 (aq) ® H,00) + 0,(g) + 1 (aq) (slow) (fast) What is the molecularity of the rate-determining step? Select one: a. zero molecular b. unimolecular c. bimolecular d. termolecular e. More information is needed to answer this question.
1) 2) 3) 4) C3H8(g) + 5 O2(g) = 3 CO2(g) + 4H2O(1) AH = -2220 kJ Decreasing the temperature will result in shift the equilibrium to the right shift the equilibrium to the left Keq is decreased O no effect in shifting the equilibrium more information is needed Which of the following expressions is the correct equilibrium-constant expression for the reaction below? P4010(s) = P4(s) + 5 O2(g) [02]-5 O [0215 [P4010] [Pd][02] [P][0215 O [P4010] [P4010) [P][0,1175 A...
1. A three-step mechanism has been suggested for the formation of carbonyl chloride: Step 1: Cl2 ===> 2 Cl (fast equlibrium) Step 2: Cl + CO ===> COCl (fast equilibrium) Step 3: COCl + Cl2 ===> COCl2 + Cl (slow) What is the molecularity of the rate-determining step? unimolecular bimolecular termolelcular none of these 2. The elementary reaction representing the formation of ozone, O2(g) + O(g) + M(g) ===> O3(g) + M*(g) is an example of a _________ reaction. unimolecular...
Question 7 1 pts The following two-step mechanism has been proposed for the gas phase decomposition of nitrous oxide: N20 (g) → N2 (g) + O (g) step 1 N20 (g) + O (g) - N2(g) + O2(g) step 2 Overall Reaction: 2 N20 (g) → 2N2 (g) + O2 (g) What is the molecularity of the first and second elementary steps of the mechanism? The first step is termolecular, and the second step is bimolecular, Both steps are bimolecular,...
Consider the mechanism proposed for the decomposition of ozone in the stratosphere: Step 1: O3 (g) → O2 (g) + O (g) Step 2: O3 (g) + O (g) → 2 O2 (g) Overall reaction: 2 O3 (g) → 3 O2 (g) What is molecularity of the first step? Unimolecular Bimolecular Termolecular Unable to predict
hello! i know this question is long but it has multiple parts so I could not post them separately. please answer all parts of the question, a through d... including the question at the end "are these data consistent eith the proposed mechanism why or why not????" thank you! i will give a thumbs up! Consider the following reaction mechanism: Step 1 K 2A + BD (fast equilibrium) Step 2 D+BE+F (slow) Step 3 F G (fast) a. Give the...
Please answer all parts to this question! parts a through d with the explanation on question d! This is all one question so I could not post them separately, please also check your answers because the last person got it wrong! Thank you! WIll give thumbs up. Consider the following reaction mechanism: Step 1 K 2A + B =D (fast equilibrium) Step 2 D+B k? E+ F (slow) Step 3 F G (fast) a. Give the molecularity of each step....
4. Below is a proposed mechanism for a reaction: Step 1. Step 2. C+E-F Step 3. F G A B C+D Fast equilibrium Slow Fast A. (2 points) What is the overall stoichiometry for this reaction? B. (2 points) Which step is the rate determining step? C. (6 points) If this mechanism is correct, what should the rate equation for this reaction be? (Make sure you include the fast equilibrium)