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A study of the rate of the reaction represented as 2AB gave the following data: Time...
2 NO (9) 1. (2 pts) Use the following experimental data to write a Rate Law...
2 NO (9) 1. (2 pts) Use the following experimental data to write a Rate Law for this reaction. Show your work and draw a box around your final answer. + Cl2() + 2 NOCG) [NO] (M) (C12) (M) Initial Rate (Mis) 0.50 1.14 1.00 0.50 4.56 1.00 1.00 9.12 0.50 2. (2 pts) Consider this two-step mechanism for a reaction: Step 1: 2 NO (9) + 2 H2 (9) ** N2 () + H2O2() SLOW Step 2: H2020) +...
CHEMWORK For a reaction of the type A2(g) + B2(8) 2AB(g) with the rate law: d[A2]...
CHEMWORK For a reaction of the type A2(g) + B2(8) 2AB(g) with the rate law: d[A2] _ = k[A][B] dt The value of the rate constant at 302°C is 2.45 x 10-4 L/mol s and at 508°C the rate constant is 0.0875 L/mol s. The value of R is 8.3145 J/K mol. Calculate the value of the rate constant for this reaction at 375°C. L/mol s Submit
Given the following reaction and the table of rate data, determine orders and then the rate...
Given the following reaction and the table of rate data, determine orders and then the rate constant (k) for this reaction: 2NO(g)Cl2g)-»2NOCIg) Rate Data [C (M) [NO] (M) Rate (M/h) 0.70 1.00 1.14 0.50 0.35 0.29 0.70 0.50 0.56
1) 2) 3) At a certain temperature the equilibrium constant, Kc, equals 0.11 for the reaction:...
1)
2)
3)
At a certain temperature the equilibrium constant, Kc, equals 0.11 for the reaction: 2 IC1(g)=12(8) + Cl2(g). What is the equilibrium concentration of Cl2 if 3.18 mol of I2 and 3.18 mol of Cl2 are initially mixed in a 2.0-L flask? The decomposition of dinitrogen tetroxide to nitrogen dioxide at 400°C follows first-order kinetics with a rate constant of 2.86 x10-35-1. Starting with pure N204, how many minutes will it take for 80.0% to decompose? *Please report...
For a first-order process, the data in the table below indicate that the reaction rate _1_...
For a first-order process, the data in the table below indicate that the reaction rate _1_ and the ½-life time _2_. Fill in blank 1 and then blank 2 with the correct terms. For A -> products [A] mol/L t min 0.200 0.0 0.100 10.0 0.050 20.0 0.025 30.0 a. 1 decreases; 2 remains the same b. 1 increases; 2 increases c. 1 remains the same; 2 remains the same d. 1 increases; 2 remains the same e. 1 decreases; 2 decreases
3. The following table shows how the concentration of AB varies in the reaction: 2 AB(g)...
3. The following table shows how the concentration of AB varies in the reaction: 2 AB(g) → A2(g) +B2(g). Time (s) 0 1000 2000 3000 4000 [AB] (mol/L) 1.00 0.112 0.061 0.041 0.031 Determine: a) The global reaction order. b) The kinetic constant for the rate of disappearance of AB. c) The kinetic constant for the rate law (independent of the reactant). Use trial end error using excel.
1) Scientific Notation for first problem not necessary, only 3 sig figs needed. Please explain how...
1)
Scientific Notation for first problem not necessary, only 3 sig
figs needed. Please explain how answer was obtained and box or
circle final answers.
2)
3)
Please explain how answer was obtained as I am having trouble
with third question
At a certain temperature the equilibrium constant, Kc, equals 0.11 for the reaction: 2 IC1(g)=12(8) + Cl2(g). What is the equilibrium concentration of Cl2 if 3.18 mol of I2 and 3.18 mol of Cl2 are initially mixed in a...
EXPERIMENT 3. Kinetic Study: The lodine Clock Reaction Prelaboratory Questions Name Fiza Chandning Laboratory Section 0000000000000000000000000000000000000000000000000000000000000000000000000000000...
EXPERIMENT 3. Kinetic Study: The lodine Clock Reaction Prelaboratory Questions Name Fiza Chandning Laboratory Section 0000000000000000000000000000000000000000000000000000000000000000000000000000000 1. Consider the following reaction: 2 NO(g) + 4 NO, (g) + O2(g) The initial concentration of N, O, was 0.84 mol/L, and 35 minutes after initiating the reaction, all of the N,Os has been consumed. a) Calculate the average rate of the reaction over this 35-minute time interval. b) Is it correct to assume that the rate law is Rate = k[NO]? based...
Please show work! 18.0 6.18 The following data were obtained on the initial rate of isomerization...
Please show work!
18.0 6.18 The following data were obtained on the initial rate of isomerization of a compound S catalyzed by an enzyme E: [S]./(mmol dm-) 1.00 2.00 3.00 4.00 vo/(mmol dm-'s-1) (a) 4.5 9.0 15.0 (b) 14.8 25.0 45.0 59.7 (c) 58.9 120.0 180.0 238.0 The enzyme concentrations are (a) 1.00 mmol dm-?, (b) 3.00 mol dm-3, and (c) 10.0 mmol dm-?. Find the orders of reactions with respect to S and E, and the rate constant. Hints...
6) is the 102 -1 at 250 °C. What 6) A particular first-order reaction has a...
6) is the 102 -1 at 250 °C. What 6) A particular first-order reaction has a rate constant of 1.35 magnitude of k at 35.0°C if Ea - 55.5 kJ/mol? A) 1.93 x 1035 B) 1.35 x 102 C) 1.05 x 104 D) 98 E) 2.80 x 102 The reaction A - B is first order in (A). Consider the following data. Time (s) [A] (M) 0.0 0.20 5.0 0.14 10.0 0.10 15.0 0.071 20.0 0.040 7) - 7) What...
2 NO (9) 1. (2 pts) Use the following experimental data to write a Rate Law for this reaction. Show your work and draw a box around your final answer. + Cl2() + 2 NOCG) [NO] (M) (C12) (M) Initial Rate (Mis) 0.50 1.14 1.00 0.50 4.56 1.00 1.00 9.12 0.50 2. (2 pts) Consider this two-step mechanism for a reaction: Step 1: 2 NO (9) + 2 H2 (9) ** N2 () + H2O2() SLOW Step 2: H2020) +...
CHEMWORK For a reaction of the type A2(g) + B2(8) 2AB(g) with the rate law: d[A2] _ = k[A][B] dt The value of the rate constant at 302°C is 2.45 x 10-4 L/mol s and at 508°C the rate constant is 0.0875 L/mol s. The value of R is 8.3145 J/K mol. Calculate the value of the rate constant for this reaction at 375°C. L/mol s Submit
Given the following reaction and the table of rate data, determine orders and then the rate constant (k) for this reaction: 2NO(g)Cl2g)-»2NOCIg) Rate Data [C (M) [NO] (M) Rate (M/h) 0.70 1.00 1.14 0.50 0.35 0.29 0.70 0.50 0.56
1)
2)
3)
At a certain temperature the equilibrium constant, Kc, equals 0.11 for the reaction: 2 IC1(g)=12(8) + Cl2(g). What is the equilibrium concentration of Cl2 if 3.18 mol of I2 and 3.18 mol of Cl2 are initially mixed in a 2.0-L flask? The decomposition of dinitrogen tetroxide to nitrogen dioxide at 400°C follows first-order kinetics with a rate constant of 2.86 x10-35-1. Starting with pure N204, how many minutes will it take for 80.0% to decompose? *Please report...
1)
Scientific Notation for first problem not necessary, only 3 sig
figs needed. Please explain how answer was obtained and box or
circle final answers.
2)
3)
Please explain how answer was obtained as I am having trouble
with third question
At a certain temperature the equilibrium constant, Kc, equals 0.11 for the reaction: 2 IC1(g)=12(8) + Cl2(g). What is the equilibrium concentration of Cl2 if 3.18 mol of I2 and 3.18 mol of Cl2 are initially mixed in a...
EXPERIMENT 3. Kinetic Study: The lodine Clock Reaction Prelaboratory Questions Name Fiza Chandning Laboratory Section 0000000000000000000000000000000000000000000000000000000000000000000000000000000 1. Consider the following reaction: 2 NO(g) + 4 NO, (g) + O2(g) The initial concentration of N, O, was 0.84 mol/L, and 35 minutes after initiating the reaction, all of the N,Os has been consumed. a) Calculate the average rate of the reaction over this 35-minute time interval. b) Is it correct to assume that the rate law is Rate = k[NO]? based...
Please show work!
18.0 6.18 The following data were obtained on the initial rate of isomerization of a compound S catalyzed by an enzyme E: [S]./(mmol dm-) 1.00 2.00 3.00 4.00 vo/(mmol dm-'s-1) (a) 4.5 9.0 15.0 (b) 14.8 25.0 45.0 59.7 (c) 58.9 120.0 180.0 238.0 The enzyme concentrations are (a) 1.00 mmol dm-?, (b) 3.00 mol dm-3, and (c) 10.0 mmol dm-?. Find the orders of reactions with respect to S and E, and the rate constant. Hints...
6) is the 102 -1 at 250 °C. What 6) A particular first-order reaction has a rate constant of 1.35 magnitude of k at 35.0°C if Ea - 55.5 kJ/mol? A) 1.93 x 1035 B) 1.35 x 102 C) 1.05 x 104 D) 98 E) 2.80 x 102 The reaction A - B is first order in (A). Consider the following data. Time (s) [A] (M) 0.0 0.20 5.0 0.14 10.0 0.10 15.0 0.071 20.0 0.040 7) - 7) What...
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