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![Saturday NOVEMBER 23 24 2017 - 2.68103 [ Or] [Ne) [NO]2 = 2.68 10 3 (0.223 - 2C) (0.223-x) (0.820 +221) > x = 0.164 & [NO] -](http://img.homeworklib.com/questions/0d7f0b00-77cb-11ea-aed0-1bcabeef17f7.png?x-oss-process=image/resize,w_560)
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5. A 50.0 L reaction vessel contains 1.00 mol N., 3 moim vessel...
please answer all. thank u Equm U ving reaction for Questions 1 - 3 and answer the questions based upon th sed upon...
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Equm U ving reaction for Questions 1 - 3 and answer the questions based upon th sed upon this Consider the following reaction reaction: co (g) + 3 H, (g) + CH (9) + H2O (g) 1. At 25°C. Kega 4.0. What must be Kes 4.0. What must be the coat equilibrium If the rulibrium concentrations on HJE 2.0M, (CH) = 5.OM, and [HO] - 3.OM? Answer: 0.469 M a way to keep track of...
Consider the following reaction for Questions 1.3 and answer the questions based upon this GU u...
Consider the following reaction for Questions 1.3 and answer the questions based upon this GU u IIULS reaction: CÓ (g) + 3 H (g) + CH4 (g) + H2O (G) 1. At 25°C, Keq=4.0. What must be the Co] at equilibrium If the equilibrium concentrations of [H.]= 2.0M. (CH) = 5.0M, and (HO) = 3.OM? Answer: 0.469 M The ICE table is a way to keep track of what is happening in the reaction vessel. The initial concentrations if given...
89. A 1.00-L vessel at 400 °C contains the following equilibrium concentrations: N2, 1.00 M; H2,...
89. A 1.00-L vessel at 400 °C contains the following equilibrium concentrations: N2, 1.00 M; H2, 0.50 M; and NH3, 0.25 M. How many moles of hydrogen must be removed from the vessel to increase the concentration of nitrogen to 1.1 M? The equilibrium reaction is N2(g) + 3H2(g) ⇌ 2NH3(g)
2IBrig), K.-280 at 150°C. Suppose that 0.500 mol IBr in a 1.00 1(g) + Bn(g) 4. For the reaction L flask is allowed to reach equilibrium at equilibrium at 150°C. What are the equilibrium concentra...
2IBrig), K.-280 at 150°C. Suppose that 0.500 mol IBr in a 1.00 1(g) + Bn(g) 4. For the reaction L flask is allowed to reach equilibrium at equilibrium at 150°C. What are the equilibrium concentrations of IBr, h, and Br2?
2IBrig), K.-280 at 150°C. Suppose that 0.500 mol IBr in a 1.00 1(g) + Bn(g) 4. For the reaction L flask is allowed to reach equilibrium at equilibrium at 150°C. What are the equilibrium concentrations of IBr, h, and Br2?
1.18 The equilibrium constant K, for the reaction N.(g)+0g) 2 NO(g) at 1200 °C is 1.00...
1.18 The equilibrium constant K, for the reaction N.(g)+0g) 2 NO(g) at 1200 °C is 1.00 x 10. Cakculate the equilibrium molar concentrations of NO, N, and O, in a reaction vessel ef volume 10.00 L that initially held 0.312 mol N, and 0.407 mol O
1.00 mol Fe(s) and 3.00 mol H2 (g) were placed into a 5.00 L reaction vessel...
1.00 mol Fe(s) and 3.00 mol H2 (g) were placed into a 5.00 L reaction vessel where the Kc for the reaction below is 0.825 at 400K. What is the concentration of hydrogen gas at equilibrium? Fe2O3 (s) + 3H2 (g) <----> 2Fe (s) + 3H2O (g)
please show work? Question 38 (8 points) A 50.0 L reaction vessel contains 2.00 mole nitrogen,...
please show work?
Question 38 (8 points) A 50.0 L reaction vessel contains 2.00 mole nitrogen, 3.00 mole hydrogen and 0.500 mole NH3. The mixture is approaching the following equilibrium: N2(g) + 3H2(g) + 2NH3(9) a) Calculate the reaction quotient Q. b) If the value of Kc is 0.500, predict which direction the reaction will go in order to reach equilibrium(to the right, to the left, or no change). Explain your answer.
________________________________________________________________ ________________________________________________________________________ The equilibrium-constant expression for a gas reaction is [N, H4] [N][H,12 Choose the balanced...
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The equilibrium-constant expression for a gas reaction is [N, H4] [N][H,12 Choose the balanced chemical equation corresponding to this expression. N2(g) + 2H2 (9) = N2H (9) ON, H. (g) = N2(g) + 2H2 (9) N2(9) + H2(9) N2H4(9) 2N2 (9) + 4H2(g) = 2N, H4 (9) Iodine and bromine react to give iodine monobromide, IBr. 12 (9) + Br2(g) = 21Br(9) What is the equilibrium composition of a mixture at 126°C that initially contained 1.30 x 10...
9. On analysis, a 6.00 L reaction vessel was found to contain 0.120 mol CINO2, 0.550...
9. On analysis, a 6.00 L reaction vessel was found to contain 0.120 mol CINO2, 0.550 mol NO, 3.20 mol NO2 and 1.90 mol CINO at equilibrium for the reaction below: CINO2 (g) + NO(g) NO2(g) + CINO (8) Then enough nitric oxide is added to bring the total amount to 1.60 mol. What will the final concentration of NO2 be once the equilibrium is re-established?
A 3.07 mol sample of NO, (g) is added to a 4.25 L vessel and heated...
A 3.07 mol sample of NO, (g) is added to a 4.25 L vessel and heated to 100°C. N,0.9) = 2 NO (9) K = 0.360 at 100°C Calculate the concentrations of NO, (g) and N, O,() at equilibrium. [NO, 1 = 0.427 [N,9,1 = 0.508
please answer all. thank u
Equm U ving reaction for Questions 1 - 3 and answer the questions based upon th sed upon this Consider the following reaction reaction: co (g) + 3 H, (g) + CH (9) + H2O (g) 1. At 25°C. Kega 4.0. What must be Kes 4.0. What must be the coat equilibrium If the rulibrium concentrations on HJE 2.0M, (CH) = 5.OM, and [HO] - 3.OM? Answer: 0.469 M a way to keep track of...
Consider the following reaction for Questions 1.3 and answer the questions based upon this GU u IIULS reaction: CÓ (g) + 3 H (g) + CH4 (g) + H2O (G) 1. At 25°C, Keq=4.0. What must be the Co] at equilibrium If the equilibrium concentrations of [H.]= 2.0M. (CH) = 5.0M, and (HO) = 3.OM? Answer: 0.469 M The ICE table is a way to keep track of what is happening in the reaction vessel. The initial concentrations if given...
2IBrig), K.-280 at 150°C. Suppose that 0.500 mol IBr in a 1.00 1(g) + Bn(g) 4. For the reaction L flask is allowed to reach equilibrium at equilibrium at 150°C. What are the equilibrium concentrations of IBr, h, and Br2?
2IBrig), K.-280 at 150°C. Suppose that 0.500 mol IBr in a 1.00 1(g) + Bn(g) 4. For the reaction L flask is allowed to reach equilibrium at equilibrium at 150°C. What are the equilibrium concentrations of IBr, h, and Br2?
1.18 The equilibrium constant K, for the reaction N.(g)+0g) 2 NO(g) at 1200 °C is 1.00 x 10. Cakculate the equilibrium molar concentrations of NO, N, and O, in a reaction vessel ef volume 10.00 L that initially held 0.312 mol N, and 0.407 mol O
please show work?
Question 38 (8 points) A 50.0 L reaction vessel contains 2.00 mole nitrogen, 3.00 mole hydrogen and 0.500 mole NH3. The mixture is approaching the following equilibrium: N2(g) + 3H2(g) + 2NH3(9) a) Calculate the reaction quotient Q. b) If the value of Kc is 0.500, predict which direction the reaction will go in order to reach equilibrium(to the right, to the left, or no change). Explain your answer.
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The equilibrium-constant expression for a gas reaction is [N, H4] [N][H,12 Choose the balanced chemical equation corresponding to this expression. N2(g) + 2H2 (9) = N2H (9) ON, H. (g) = N2(g) + 2H2 (9) N2(9) + H2(9) N2H4(9) 2N2 (9) + 4H2(g) = 2N, H4 (9) Iodine and bromine react to give iodine monobromide, IBr. 12 (9) + Br2(g) = 21Br(9) What is the equilibrium composition of a mixture at 126°C that initially contained 1.30 x 10...
9. On analysis, a 6.00 L reaction vessel was found to contain 0.120 mol CINO2, 0.550 mol NO, 3.20 mol NO2 and 1.90 mol CINO at equilibrium for the reaction below: CINO2 (g) + NO(g) NO2(g) + CINO (8) Then enough nitric oxide is added to bring the total amount to 1.60 mol. What will the final concentration of NO2 be once the equilibrium is re-established?
A 3.07 mol sample of NO, (g) is added to a 4.25 L vessel and heated to 100°C. N,0.9) = 2 NO (9) K = 0.360 at 100°C Calculate the concentrations of NO, (g) and N, O,() at equilibrium. [NO, 1 = 0.427 [N,9,1 = 0.508
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