Consider the following mechanism for the formation of carbon tetrachloride: (1) Cl (9) -- 20 (9)...
Consider the following mechanism for the decomposition of nitrogen dioxide NO 2(g) → NO(g) + 0(g) 0(g) + NO2(g) →O2(g) + NO(g) Write the chemical equation of the overall reaction Are there any intermediates in this mechanism? yes no If there are intermediates, write down their chemical formulas Put a comma between each chemical formula, if there's more than one
1. Consider the following balanced chemical reaction: CH,(8) + 4C12(8) CCI.() + 4HCI (9) a. (10 points) 8.00 g of methane (CH) are mixed with 72.00 g of Cl, and allowed to react. Identify the limiting reactant b. (5 points) Use the result of part (a) to determine the theoretical yield of carbon tetrachloride (CCL) in grams. c. (2 points) The actual yield of CCI, in this reaction was 22.7 g. Calculate the percent yield of this reaction.
8. (20 points) Consider the following mechanism, with the accompanying energy diagram, which has been suggested for the following overall reaction in the presence of a Cl catalyst: 03 +0 202 Step 1: Step 2: 03 + Cl → OCl + O2 OCl + 0 + 02 + Cl +---Ea, Energy - - - - AHrxn --- - Reaction progress- A. Based on the energy diagram, which step is rate limiting? Which step is the fastest? (4 Points) B. Identify...
Consider the following two-step mechanism for a reaction: NO2(g)+Cl2(g)→ClNO2(g)+Cl(g)Slow N O 2 ( g ) + C l 2 ( g ) → C l N O 2 ( g ) + C l ( g ) S l o w NO2(g)+Cl(g)→ClNO2(g)Fast a)What is the overall reaction? Express your answer as a chemical equation. Identify all of the phases in your answer. b)Identify the intermediates in the mechanism. Check all that apply. Check all that apply. NO2(g), ClNO2(g), Cl2(g) ,Cl(g)...
— O KINETICS AND EQUILIBRIUM Writing the rate law implied by a simple mechanism Suppose the formation of nitrosyl chloride proceeds by the following mechanism: step elementary reaction rate constant 1 NO(g) + Cl2(9) ► NOCI (9) km 2 NOCI (9) + NO(g) → 2 NOCI (9) kz Suppose also k«k. That is, the first slower than the second 0-0 Write the balanced chemical equation for the overall chemical reaction: Write the experimentally- observable rate law for the overall chemical...
#13 Interpreting Mechanisms 1. Consider the following mechanism: Step 1 Br2 2Br fast Step 2 Br + H2 H2Br fast Step 3 H2Br + Br 2HBr slow a. What is the overall equation? b. Identify the intermediate(s) if any. c. What is the molecularity and the rate law for each step including any reversible steps? d. What is the predicted rate law expression for this reaction. Be sure to only list reactants from the overall equation and...
1. The following mechanism has been proposed for the pas-phase reaction of chloroform and chlorine Ch> 20 (fast) CI + CHCI, - HCI +CCI, (slow) Cl + CCI - CCI (fast) a) Identify any intermediate(s): b) Identify any catalyst(s): b) Write the balanced equation for the overall reaction: c) Molecularity of each step: step 1. step 2. step 3 d) rds (circle): 1 2 3 d) What is the observable rate law predicted by this mechanism? e) What is the...
Consider the following two-step mechanism for a reaction: NO2(g)+Cl2(g)⟶k1ClNO2(g)+Cl(g) Slow NO2(g)+Cl(g)⟶k2ClNO2(g) Fast Part A What is the overall reaction? Express your answer as a chemical equation. Identify all of the phases in your answer.
Suppose the reaction between nitric oxide and oxygen proceeds by the following mechanism: rate constant elementary reaction step NO(g)+ 02(g) NO2(9) 0(g) 1 NO(g) O(g) NO2(9) k2 2 Suppose also k,»k,. That is, the first step is much faster than the second. 2* Write the balanced chemical equation for the overall chemical reaction: Write the experimentally observable rate law for the overall chemical reaction rate k Note: your answer should not contain the concentrations of any intermediates. Express the rate...
Chapter 5 extra credit 1 Saved 3 attempts left Check my work Be sure to answer all parts. Report problem 10 points Write a chemical equation from the following description of reaction. Be sure to include states of matter to your equation. Hint Solution One molecule of gaseous methane (CHA) is heated with four molecules of gaseous chlorine (Cly), forming one molecule of liquid carbon tetrachloride (CCI) and four molecules of gaseous hydrogen chloride (HCI). Guided Solution eBook Print References