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hello! this question has multiple parts! please answer a through c, as i could not post...
Please answer all parts to this question! parts a through c with the explanation shown on question b! 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. Reaction 1 below occurs very slowly, while reaction 2 below occurs much more rapidly: 1. O2(g) +20(9) 2. Ar(g) + O2(g) → Ar(9) +20(9) Q9.1 2 Points a. Ar(g) can be viewd...
Please make sure your answer is correct. I have gotten numerous wrong answers. Thanks. This one too: And this one: Again please make sure you are correct. If you have time: This one was marked wrong too, so if you can solve I give thumbs up thanks. Consider the following reaction mechanism: Step 1 K 2A + B =D (fast equilibrium) Step 2 D+B *3 E+F (slow) Step 3 FKG (fast) c. What is the rate law that corresponds to...
please make sure this is correct! I have gotten two wrong answers already so far! Reaction 1 below occurs very slowly, while reaction 2 below occurs much more rapidly: 1. O2(g) +20(g) 2. Ar(g) + O2(g) → Ar(g) +20(g) Q9.1 2 Points a. Ar(g) can be viewd as a catalyst in reaction 2, as it accelerates the reaction, but is neither created nor destroyed by the reaction. Which of the following is true? O Reaction 1 will have a greater...
Please make sure these both are correct I keep getting different answers, make sure it is not wrong the answer you give. THANKS Reaction 1 below occurs very slowly, while reaction 2 below occurs much more rapidly: 1. O2(g) → 20 (9) 2. Ar(g) + O2(g) → Ar(g) + 2O(g) Q9.1 2 Points a. Ar(g) can be viewd as a catalyst in reaction 2, as it accelerates the reaction, but is neither created nor destroyed by the reaction. Which of...
Could someone please answer both parts of this question for me! I have no idea how to do it. Thanks! <Ch17rev Item 10 10 of 11 > Review Constants 1 Periodic Table Consider the following reaction: 2 NO(g) + O2(g) = 2 NO2 (9) Part A The data in the table show the equilibrium constant for this reaction measured at several different temperatures. Use the data to find A. Hº for the reaction. Temperature/ K 400 IVO AQ O ?...
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! 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. a. Consider the following complex reaction. X + 2Y + products. What are the units of the rate constant for this reaction? O M·s-1 1 S O M-1.5-1 O M-2.5-1 This question cannot be answered without additional information. b....
Hey guys please give me the answers quickly I need it so quick I will give you a good rate thank you c. 5000 sec d. 31.25 min e. 27.1 min The rate constant for a certain chemical reaction is 0.00250 L mol's at 25.0 °C and 0.0125 mol's" at 50.0 °C. What is the activation energy for the reaction, expressed in ku? 1. a. 25.1 kJ b. 51.6 kJ C. 37.6 kJ d. 45.3 kJ e. 60.3 kJ 8....
please answer them all :) (19) In question (12) a catalyst would shift the equilibrium to the (a) left (b) right (C) no shift (d) middle. (20) What will be Kc for SO3 (g) = SO2 (g) + 1/2O2(g). (a) 4.74 (b)0.25 (c) 4.0 (d) 17.0 (e) 0.211 (21) Consider the data below: (14) Consider the reaction: 2N2(g) + O2(g) = 2N20(g) At a certain temperature a 2.00 L flask at equilibrium contains 2.80 X 104 mol of N2 (g),...
How do I solve for frequency factor? This question has multiple parts. Work all the parts to get the most points. These data were obtained for the rate constant for reaction of an unknown compound with water T(degreeC) k (s^-1) 52.4 1.57 x 10^-5 77.3 1.51 x 1(^-4 Calculate the activation energy and frequency factor for this reaction.