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At 500°C, hydrogen iodide decomposes according to 2 HI(g) = H2(g) +12(9) For HI(9) heated to...
At 500°C, hydrogen iodide decomposes according to 2 HI(g) = H2(g) +12(9) For HI(9) heated to 500 °C in a 1.00 L reaction vessel, chemical analysis determined these concentrations at equilibrium: [H, 1 = 0.383 M, L1=0.383 M, and [HI] = 3.24 M. If an additional 1.00 mol of HI(g) is introduced into the reaction vessel, what are the equilibrium concentrations after the new equilibrium has been reached?
Question 9 of 15 Map At 500 °C hydrogen iodide decomposes according to For HI(g) heated...
Question 9 of 15 Map At 500 °C hydrogen iodide decomposes according to For HI(g) heated to 500 ℃ in a 1 .00-L reaction vessel, chemical analysis determined the following concentrations at equilibrium: [H2] = 0.353 M, [12] = 0.353 M, and [Hl] = 2.98 M. If an additional 1.00 mole of HI(g) is introduced into the reaction vessel, what are the equilibrium concentrations after the new equilibrium has been reached? Number Number Number
The equilibrium constant, K., for the following reaction is 55.6 at 698 K. H2(g) +12(E) 2...
The equilibrium constant, K., for the following reaction is 55.6 at 698 K. H2(g) +12(E) 2 HI(g) Calculate the equilibrium concentrations of reactants and product when 0.309 moles of H2 and 0.309 moles of I are introduced into a 1.00 L vessel at 698 K. M [H2 1 = [12] [HI] - M M
The equilibrium constant, Kc, for the following reaction is 83.3 at 500 K. PCl3(g) + Cl2(g)...
The equilibrium constant, Kc, for the following reaction is 83.3 at 500 K. PCl3(g) + Cl2(g) = PCl5(g) Calculate the equilibrium concentrations of reactant and products when 0.249 moles of PCl3 and 0.249 moles of Cl2 are introduced into a 1.00 L vessel at 500 K. [PCl3] = M [Cl2] = M [PCl5] = M The equilibrium constant, Kc, for the following reaction is 1.80×10-2 at 698 K. 2HI(g) = H2(g) + I2(g) Calculate the equilibrium concentrations of reactant and...
at 1000 K? for the reaction 12. The equilibrium constant, K 2 HI(g) H2(g) I2(g) is 55 at 425 C. Ifa 0.40 mol sample...
at 1000 K? for the reaction 12. The equilibrium constant, K 2 HI(g) H2(g) I2(g) is 55 at 425 C. Ifa 0.40 mol sample of HI was introduced into a 1.00 mL. reaction vessel at 425 C, what are the equibrium concentrations of H2, 12, and HI? 13. Consider the following reaction which is at equilibrium at 25 C 2 NH3(g) + CO2(g) A-152.2 kJ Ni4(NH2CO2X) In which direction will the reaction shift if (a) the pressure is increased (b)...
3. (8 Pts) At 127°C, Kc = 2.6 x 10- for the reaction: 2 NH3(g) +...
3. (8 Pts) At 127°C, Kc = 2.6 x 10- for the reaction: 2 NH3(g) + N2(g) + 3 H2(g) Calculate Kp at this temperature. 4. (10 Pts) A 1.00-L flask was filled with 2.00 mol gaseous SO2 and 2.00 mol gascous NO, and heated. After equilibrium was reached, it was found that 1.30 mol gaseous NO was present. Assume that the reaction: SO2(g) + NO2(g) =SO3(g) + NO(g) occurs under these conditions. Calculate the value of the equilibrium constant,...
The equilibrium constant, K, for the following reaction is 1.80x102 at 698 K. 2HI(g) H2(g) +1(8)...
The equilibrium constant, K, for the following reaction is 1.80x102 at 698 K. 2HI(g) H2(g) +1(8) Calculate the equilibrium concentrations of reactant and products when 0.310 moles of HI are introduced into a 1.00 L vessel at 698 K. M M [H] [12] M
#1000K? 12. The equilibrium constant,ke, for the reaction H() + 12(g) 2 HI(g) 13542 0 40...
#1000K? 12. The equilibrium constant,ke, for the reaction H() + 12(g) 2 HI(g) 13542 0 40 mol sample of HI was introduced into a 1,00 mL reaction vessel at 125 °C, what are the equibrium concentrations of H2. 12, and HI? 13. Consider the following reaction which is at equilibrium at 25°C: 2NH3(g) + CO2(g), Alº - 152.2 kJ (c) the temperature is increased In which direction will the reaction shini (a) the pressure is increased (b) the pressure is...
4. (10 Pts) A 1.00-L flask was filled with 2.00 mol gaseous SO, and 2.00 mol...
4. (10 Pts) A 1.00-L flask was filled with 2.00 mol gaseous SO, and 2.00 mol gaseous NO, and heated. After equilibrium was reached, it was found that 1.30 mol gaseous NO was present. Assume that the reaction: SO2(g) + NO2(g) =SO3(g) + NO(g) occurs under these conditions. Calculate the value of the equilibrium constant, Kc. 5. (12 Pts) At a particular temperature, Kc = 1.00 x 10 for the reaction H2(g) + 12(g) = 2 HI(g) In an experiment,...
At a particular temperature, K = 7.40 × 102 for the reaction H2 (g) + 12...
At a particular temperature, K = 7.40 × 102 for the reaction H2 (g) + 12 (g) 늑 2H1(g) In an experiment, 3.30 moles of H2, 3.30 moles of I2, and 3.30 moles of HI are introduced into a 1.00-L container Calculate the concentrations of all species when equilibrium is reached Concentration of H2 = Concentration of - Concentration ofHi-M
At 500°C, hydrogen iodide decomposes according to 2 HI(g) = H2(g) +12(9) For HI(9) heated to 500 °C in a 1.00 L reaction vessel, chemical analysis determined these concentrations at equilibrium: [H, 1 = 0.383 M, L1=0.383 M, and [HI] = 3.24 M. If an additional 1.00 mol of HI(g) is introduced into the reaction vessel, what are the equilibrium concentrations after the new equilibrium has been reached?
Question 9 of 15 Map At 500 °C hydrogen iodide decomposes according to For HI(g) heated to 500 ℃ in a 1 .00-L reaction vessel, chemical analysis determined the following concentrations at equilibrium: [H2] = 0.353 M, [12] = 0.353 M, and [Hl] = 2.98 M. If an additional 1.00 mole of HI(g) is introduced into the reaction vessel, what are the equilibrium concentrations after the new equilibrium has been reached? Number Number Number
The equilibrium constant, K., for the following reaction is 55.6 at 698 K. H2(g) +12(E) 2 HI(g) Calculate the equilibrium concentrations of reactants and product when 0.309 moles of H2 and 0.309 moles of I are introduced into a 1.00 L vessel at 698 K. M [H2 1 = [12] [HI] - M M
at 1000 K? for the reaction 12. The equilibrium constant, K 2 HI(g) H2(g) I2(g) is 55 at 425 C. Ifa 0.40 mol sample of HI was introduced into a 1.00 mL. reaction vessel at 425 C, what are the equibrium concentrations of H2, 12, and HI? 13. Consider the following reaction which is at equilibrium at 25 C 2 NH3(g) + CO2(g) A-152.2 kJ Ni4(NH2CO2X) In which direction will the reaction shift if (a) the pressure is increased (b)...
3. (8 Pts) At 127°C, Kc = 2.6 x 10- for the reaction: 2 NH3(g) + N2(g) + 3 H2(g) Calculate Kp at this temperature. 4. (10 Pts) A 1.00-L flask was filled with 2.00 mol gaseous SO2 and 2.00 mol gascous NO, and heated. After equilibrium was reached, it was found that 1.30 mol gaseous NO was present. Assume that the reaction: SO2(g) + NO2(g) =SO3(g) + NO(g) occurs under these conditions. Calculate the value of the equilibrium constant,...
The equilibrium constant, K, for the following reaction is 1.80x102 at 698 K. 2HI(g) H2(g) +1(8) Calculate the equilibrium concentrations of reactant and products when 0.310 moles of HI are introduced into a 1.00 L vessel at 698 K. M M [H] [12] M
#1000K? 12. The equilibrium constant,ke, for the reaction H() + 12(g) 2 HI(g) 13542 0 40 mol sample of HI was introduced into a 1,00 mL reaction vessel at 125 °C, what are the equibrium concentrations of H2. 12, and HI? 13. Consider the following reaction which is at equilibrium at 25°C: 2NH3(g) + CO2(g), Alº - 152.2 kJ (c) the temperature is increased In which direction will the reaction shini (a) the pressure is increased (b) the pressure is...
4. (10 Pts) A 1.00-L flask was filled with 2.00 mol gaseous SO, and 2.00 mol gaseous NO, and heated. After equilibrium was reached, it was found that 1.30 mol gaseous NO was present. Assume that the reaction: SO2(g) + NO2(g) =SO3(g) + NO(g) occurs under these conditions. Calculate the value of the equilibrium constant, Kc. 5. (12 Pts) At a particular temperature, Kc = 1.00 x 10 for the reaction H2(g) + 12(g) = 2 HI(g) In an experiment,...
At a particular temperature, K = 7.40 × 102 for the reaction H2 (g) + 12 (g) 늑 2H1(g) In an experiment, 3.30 moles of H2, 3.30 moles of I2, and 3.30 moles of HI are introduced into a 1.00-L container Calculate the concentrations of all species when equilibrium is reached Concentration of H2 = Concentration of - Concentration ofHi-M
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