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Qui Question 9 16 pts The reaction H2...
Can you work this question with the work all step by step? 5. The value of...
Can you work this question with the work all step by step?
5. The value of Ke for reaction: H2(g) + 12 (9) + 2H1 (9) is 50.5. In what direction the reaction proceed if the initial concentrations are as follows? (a) [H2] = 0.015 M , [12] = 0.012 M , [HI] = 0.024 M (b) [H2) = 0.030 M , [12] = 0.060 M , [HI] = 0.15 M (c) [H2] = 0.002 M , [12] = 0.003...
PS 50V Consider the reaction below. CO (9) + H2O (9) <=> CO2(g) + H2(g) 200...
PS 50V Consider the reaction below. CO (9) + H2O (9) <=> CO2(g) + H2(g) 200 M CO and 1.00 MH20 are in a one liter flask and the system is allowed to reach equilibrium. Ke at this temperature is 1.56. What is final concentration of CO? (Hint need quadratic) 0.00380 M ООО 2.92 M 1.81 M 127 M 305 x 10M 0.147 M 9.46 x 10M 00432 M
Consider the reaction: H2(g) +12(9) =2HI(9) A reaction mixture in a 3.60 -L flask at 500...
Consider the reaction: H2(g) +12(9) =2HI(9) A reaction mixture in a 3.60 -L flask at 500 K initially contains 0.375 g H2 and 17.91 g 12. At equilibrium, the flask contains 17.76 g HI. Part A Calculate the equilibrium constant at this temperature. Express your answer using three significant figures. IVO AXDA O O ? K = Submit Previous Answers Request Answer X Incorrect; Try Again
Question 44 RATE DATA FOR QUESTION: 2H1(9) - H2(g) + 12(9) and 2nd Order rate data...
Question 44 RATE DATA FOR QUESTION: 2H1(9) - H2(g) + 12(9) and 2nd Order rate data at 580K Time, s 0 1000 2000 3000 4000 HI,MM 1000 112. 61 41 31 Determine the half life for the reaction. O 500.5 61. s 31. s O 112. s O 128. s
question 1 and 2 QUESTION 1 2 HI(g) <=> H2(g) + 12(g) AHO -- 13.2 k),...
question 1 and 2
QUESTION 1 2 HI(g) <=> H2(g) + 12(g) AHO -- 13.2 k), Asº - - 21.8 J/K, R=8.314J/molk Classify this reaction as one of the four possible types: a. A b.B Ос. С d.D QUESTION 2 2 HI(g) <=> H2(g) + 12(g) AHO - - 13.2 k), Asº -21.8 J/K, R=8.314J/molk At the temperature above/below the reaction above becomes nonspontaneous/ spontaneous? a. 3320C
Question 16 1 pts Consider the following endothermic reaction at equilibrium: 2NH3(e) <--> N2(g) + 3H)...
Question 16 1 pts Consider the following endothermic reaction at equilibrium: 2NH3(e) <--> N2(g) + 3H) Le Chatelier's principle predicts that adding N2 (g) to the system at equilibrium will result in a decrease in the concentration of NH3 (8) a decrease in the concentration of H2(g) an increase in the value of the equilibrium constant a lower partial pressure of N2 removal of all of the H2(g)
(10 pts) Hydrogen iodide can decompose into hydrogen and iodine gases. K for the reaction is...
(10 pts) Hydrogen iodide can decompose into hydrogen and iodine gases. K for the reaction is 0.016. If 0.148 atm of HI(g) is sealed in a flask, what is the pressure of each gas when equilibrium is established? 2HI(g) = H2(g) + 12(g) K = 0.016
can you solve and show work if possible Question 5 9 pts For the following mechanism:...
can you solve and show work if possible
Question 5 9 pts For the following mechanism: Step 1: 2A -----> B (fast) Step 2: B + C -----> 2D (slow) a) What is the predicted rate law (not using intermediates)? [Select] b) What is the overall reaction? (Select] c) How would adding a catalyst affect this reaction? (Select]
QUESTION 24 4 Consider the following reversible reaction: H2(g) + 12(9) 2 HI(g) K = 64.0...
QUESTION 24 4 Consider the following reversible reaction: H2(g) + 12(9) 2 HI(g) K = 64.0 at a particular temperature. A reaction mixture initially contains 0.945 M H2 and 0.945 M 12. Determine the equilibrium concentration of HL Click Save and Submit to save and submit. Click Save All Answers to save all answers. Save All Answer 0 1 2 v
QUESTION 2 2 HI(g) <=> H2(g) + 12(g) AHO = - 13.2 kJ, AJO -- 21.8...
QUESTION 2 2 HI(g) <=> H2(g) + 12(g) AHO = - 13.2 kJ, AJO -- 21.8 J/K, R=8.314 J/molk At the temperature above/below the reaction above becomes nonspontaneous/ spontaneous? Oa. 333 °C b.60. K W c. 606 °C d. 333 K
Can you work this question with the work all step by step?
5. The value of Ke for reaction: H2(g) + 12 (9) + 2H1 (9) is 50.5. In what direction the reaction proceed if the initial concentrations are as follows? (a) [H2] = 0.015 M , [12] = 0.012 M , [HI] = 0.024 M (b) [H2) = 0.030 M , [12] = 0.060 M , [HI] = 0.15 M (c) [H2] = 0.002 M , [12] = 0.003...
PS 50V Consider the reaction below. CO (9) + H2O (9) <=> CO2(g) + H2(g) 200 M CO and 1.00 MH20 are in a one liter flask and the system is allowed to reach equilibrium. Ke at this temperature is 1.56. What is final concentration of CO? (Hint need quadratic) 0.00380 M ООО 2.92 M 1.81 M 127 M 305 x 10M 0.147 M 9.46 x 10M 00432 M
Consider the reaction: H2(g) +12(9) =2HI(9) A reaction mixture in a 3.60 -L flask at 500 K initially contains 0.375 g H2 and 17.91 g 12. At equilibrium, the flask contains 17.76 g HI. Part A Calculate the equilibrium constant at this temperature. Express your answer using three significant figures. IVO AXDA O O ? K = Submit Previous Answers Request Answer X Incorrect; Try Again
Question 44 RATE DATA FOR QUESTION: 2H1(9) - H2(g) + 12(9) and 2nd Order rate data at 580K Time, s 0 1000 2000 3000 4000 HI,MM 1000 112. 61 41 31 Determine the half life for the reaction. O 500.5 61. s 31. s O 112. s O 128. s
question 1 and 2
QUESTION 1 2 HI(g) <=> H2(g) + 12(g) AHO -- 13.2 k), Asº - - 21.8 J/K, R=8.314J/molk Classify this reaction as one of the four possible types: a. A b.B Ос. С d.D QUESTION 2 2 HI(g) <=> H2(g) + 12(g) AHO - - 13.2 k), Asº -21.8 J/K, R=8.314J/molk At the temperature above/below the reaction above becomes nonspontaneous/ spontaneous? a. 3320C
Question 16 1 pts Consider the following endothermic reaction at equilibrium: 2NH3(e) <--> N2(g) + 3H) Le Chatelier's principle predicts that adding N2 (g) to the system at equilibrium will result in a decrease in the concentration of NH3 (8) a decrease in the concentration of H2(g) an increase in the value of the equilibrium constant a lower partial pressure of N2 removal of all of the H2(g)
(10 pts) Hydrogen iodide can decompose into hydrogen and iodine gases. K for the reaction is 0.016. If 0.148 atm of HI(g) is sealed in a flask, what is the pressure of each gas when equilibrium is established? 2HI(g) = H2(g) + 12(g) K = 0.016
can you solve and show work if possible
Question 5 9 pts For the following mechanism: Step 1: 2A -----> B (fast) Step 2: B + C -----> 2D (slow) a) What is the predicted rate law (not using intermediates)? [Select] b) What is the overall reaction? (Select] c) How would adding a catalyst affect this reaction? (Select]
QUESTION 24 4 Consider the following reversible reaction: H2(g) + 12(9) 2 HI(g) K = 64.0 at a particular temperature. A reaction mixture initially contains 0.945 M H2 and 0.945 M 12. Determine the equilibrium concentration of HL Click Save and Submit to save and submit. Click Save All Answers to save all answers. Save All Answer 0 1 2 v
QUESTION 2 2 HI(g) <=> H2(g) + 12(g) AHO = - 13.2 kJ, AJO -- 21.8 J/K, R=8.314 J/molk At the temperature above/below the reaction above becomes nonspontaneous/ spontaneous? Oa. 333 °C b.60. K W c. 606 °C d. 333 K
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