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can you solve and show work if possible Qui Question 9 16 pts The reaction H2...
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