1. Reaction 1 (in 1 L vessel and at 600K ): A 1L reaction vessel is charged with 1.0 mole of N2 and 1.0 moles of H2 (reactants only, no NH3 ) and allowed to run until it achieves equilibrium at 600K. a. What are the concentrations of [N2], [H2], and [NH3] at equilibrium? b. Using these concentrations, calculate the value of Ked at this temperature. How does this result compare to the value of Keq given by the application? c. Reset the application, changing the initial amount of N2,H2, and NH3, load and start the simulation. What is the new value of Kea? 11. Reaction 2 (in 1 L vessel and at 800K ): A 1L reaction vessel is charged with 1.0mol of N2 and 1.0mol of H2 (reactants only, no NH3 ) and allowed to run until it achieves equilibrium at 800K. a. What are the concentrations of [N2], [H2], and [NH3] at equilibrium? b. Using these concentrations, calculate the value of Keq at this temperature. How does this result compare to the value of Keq given by the application? c. Reset the application, changing the initial amount of of N2,H2, and NH3, load and start the simulation. What is the new value of Keq ? III. Summary: based on the experimental data, answer the following questions: a. How do you know when equilibrium has been reached? b. Does the value of Keq depend on the initial amounts of the reactants and products? c. Does the value of Keq depend on the temperature of the reaction? 1. Reaction 1 (in 1 L vessel and at 600K ): A 1L reaction vessel is charged with 1.0 mole of N2 and 1.0 moles of H2 (reactants only, no NH3 ) and allowed to run until it achieves equilibrium at 600K. a. What are the concentrations of [N2], [H2], and [NH3] at equilibrium? b. Using these concentrations, calculate the value of Ked at this temperature. How does this result compare to the value of Keq given by the application? c. Reset the application, changing the initial amount of N2,H2, and NH3, load and start the simulation. What is the new value of Kea? 11. Reaction 2 (in 1 L vessel and at 800K ): A 1L reaction vessel is charged with 1.0mol of N2 and 1.0mol of H2 (reactants only, no NH3 ) and allowed to run until it achieves equilibrium at 800K. a. What are the concentrations of [N2], [H2], and [NH3] at equilibrium? b. Using these concentrations, calculate the value of Keq at this temperature. How does this result compare to the value of Keq given by the application? c. Reset the application, changing the initial amount of of N2,H2, and NH3, load and start the simulation. What is the new value of Keq ? III. Summary: based on the experimental data, answer the following questions: a. How do you know when equilibrium has been reached? b. Does the value of Keq depend on the initial amounts of the reactants and products? c. Does the value of Keq depend on the temperature of the reaction