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Chapter 14, Question 37 Parameterization At 412 °C, Kn is 0.502 for the following reaction: 2A(s) B(g)C(s) 2D(g) If B g...
1) At 453 °C, Keq is 1.33 for the following reaction: A(s) + 2B(g) ⇄C(s) +...
1) At 453 °C, Keq is 1.33 for the following reaction: A(s) + 2B(g) ⇄C(s) + D(g) If B gas at 0.793 bar is injected into a container at 453 °C that contains excess A, what are the partial pressures of all gases present at equilibrium? a) Pressure of B b) Pressure of D
For the reaction 2A(g) + B(s) ⇌ C(l) + 2D(g) at 700 °C, Kc = 0.00147....
For the reaction 2A(g) + B(s) ⇌ C(l) + 2D(g) at 700 °C, Kc = 0.00147. Calculate the number of moles of D present at equilibrium if a mixture of 1.77 moles of C and 1.77 moles of D is heated to 700 °C in a 5.52-L container. The answer is 0.0650 mol but not sure how to get it.
Ammonium iodide, a solid, decomposes to give NH3(g) and HI(g). At 406 °C, some NH4I(s) is...
Ammonium iodide, a solid, decomposes to give NH3(g) and HI(g). At 406 °C, some NH4I(s) is placed in an evacuated container. A portion of it decomposes, and the total pressure at equilibrium is 1.08 atm. Extra NH3(g) is then injected into the container, and when equilibrium is reestablished, the partial pressure of NH3(g) is 1.27 atm. (a) Compute the equilibrium constant in terms of pressures, Kp, for the decomposition of ammonium iodide at 406 °C. NH4I(s) -->NH3(g) + HI(g) K...
The equilibrium constant in terms of pressures, Kp, for the reaction NH3(g)+ HI(g) NH4I(s) at 400...
The equilibrium constant in terms of pressures, Kp, for the reaction NH3(g)+ HI(g) NH4I(s) at 400 °C is 4.65. (a) If the partial pressure of ammonia is PNH, 0.881 atm and solid ammonium iodide is present, what is the equilibrium partial pressure of hydrogen iodide at 400 °C? PHI atm (b) An excess of solid NH,I is added to a container filled with NH3 at 400 °C and a pressure of 1.17 atm. Calculate the pressures of NH(g) and HI(g)...
Consider a mixture of 2.00 g of helium and 10.0 g of xenon atoms in a...
Consider a mixture of 2.00 g of helium and 10.0 g of xenon atoms in a container with a volume of 1 L. Assume that helium and xenon are ideal gases. (a) If the root mean square speed (vrms or urms in Chapter 9) of helium is 1500 m/s, what is the temperature of the gas? (b) Assuming that the helium and xenon are at the same temperature, what is the root mean squared speed of the xenon gas? (c)...
Question: For the reaction 2 A(g) + 3 B(g) + 2 C(g) + 2 D(9), the...
Question: For the reaction 2 A(g) + 3 B(g) + 2 C(g) + 2 D(9), the equilibrium constant at 298 K is 1.378x10-11. If the initial partial pressures of A, and B are 0.457 bar, and 0.355 bar, respectively, determine the partial pressure of D (in bar) once equilibrium has been reached at 298 K. (2 marks)
o Consider the renction 2A(g) + B(g) + 2(g) 2D(8) E(s) Suppose at time =0, the...
o Consider the renction 2A(g) + B(g) + 2(g) 2D(8) E(s) Suppose at time =0, the partial pressures of the reactant gases are 5 atm A, 10 atm B, and 8 atm C. After 20 minutes the partial pressure of A was found to be 1 atm. a) What is the initial total pressure in the flask at time=0? Bus P + P +++ b) What is the total pressure inside the flask after 20 minutes? Set up a start,...
Again, consider the exothermic reaction, with K=3.00: 2A(aq) + B(g) ⇌ C(aq) + D(g) With initial c...
Again, consider the exothermic reaction, with K=3.00: 2A(aq) + B(g) ⇌ C(aq) + D(g) With initial concentrations of [A] = 0.5M, [B] = 2.0M, [C] = 1.0M, and [D] = 1.5M. For each of the following disruptions, predict weather the reaction will go forward (toward products), reverse (towards reactants), or be unchanged. a) [A] increased to 2.0M b) Pressure doubled. c) Volume of solution doubled by dilution. d) The temperature is increased by 100.0oC (15.83 from text) When 1.50mol CO2...
1. (18 points) Consider the balanced gas phase combustion of dinitrotoluene, DNT (C7 HG(NO2)2): 2C7H6(NO2)2(g) +...
1. (18 points) Consider the balanced gas phase combustion of dinitrotoluene, DNT (C7 HG(NO2)2): 2C7H6(NO2)2(g) + 3 O2(g) ---> 14 CO(g) +4 NH3(g). The products are carbon monoxide (CO) and ammonia (NH3). A gaseous mixture of DNT and O2(g) at 80°C is placed into a previously empty rigid container. When the above reaction goes to completion at 80°C, 0.15 atm of O2(g) is still present. The partial pressure of the NH3(g) produced is 1.00 atm. Assume all gases behave ideally....
Consider the following equilibrium reaction: A(g) + B (s) = C(g) If Kp = 6 *...
Consider the following equilibrium reaction: A(g) + B (s) = C(g) If Kp = 6 * 10–3, which species will have the highest partial pressure at equilibrium? A) A B)B C)C D) They'll all exist in equal amounts.
The equilibrium constant in terms of pressures, Kp, for the reaction NH3(g)+ HI(g) NH4I(s) at 400 °C is 4.65. (a) If the partial pressure of ammonia is PNH, 0.881 atm and solid ammonium iodide is present, what is the equilibrium partial pressure of hydrogen iodide at 400 °C? PHI atm (b) An excess of solid NH,I is added to a container filled with NH3 at 400 °C and a pressure of 1.17 atm. Calculate the pressures of NH(g) and HI(g)...
Question: For the reaction 2 A(g) + 3 B(g) + 2 C(g) + 2 D(9), the equilibrium constant at 298 K is 1.378x10-11. If the initial partial pressures of A, and B are 0.457 bar, and 0.355 bar, respectively, determine the partial pressure of D (in bar) once equilibrium has been reached at 298 K. (2 marks)
o Consider the renction 2A(g) + B(g) + 2(g) 2D(8) E(s) Suppose at time =0, the partial pressures of the reactant gases are 5 atm A, 10 atm B, and 8 atm C. After 20 minutes the partial pressure of A was found to be 1 atm. a) What is the initial total pressure in the flask at time=0? Bus P + P +++ b) What is the total pressure inside the flask after 20 minutes? Set up a start,...
1. (18 points) Consider the balanced gas phase combustion of dinitrotoluene, DNT (C7 HG(NO2)2): 2C7H6(NO2)2(g) + 3 O2(g) ---> 14 CO(g) +4 NH3(g). The products are carbon monoxide (CO) and ammonia (NH3). A gaseous mixture of DNT and O2(g) at 80°C is placed into a previously empty rigid container. When the above reaction goes to completion at 80°C, 0.15 atm of O2(g) is still present. The partial pressure of the NH3(g) produced is 1.00 atm. Assume all gases behave ideally....
Consider the following equilibrium reaction: A(g) + B (s) = C(g) If Kp = 6 * 10–3, which species will have the highest partial pressure at equilibrium? A) A B)B C)C D) They'll all exist in equal amounts.
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