Diatomic and atomic chlorine gas exist in equilibrium according to the reaction below: Calculate the equilibrium...

Diatomic and atomic fluorine gas exists in equilibrium according to the following reaction F2(g) -><- 2F(g)...

Diatomic and atomic fluorine gas exists in equilibrium according to the following reaction F2(g) -><- 2F(g) (a) The standard molar Gibbs free energy of reaction, ∆rG at 298 K is 5.25 kJ mol−1 at 298 K. Use this information to calculate the equilibrium constant for the reaction. (b) Calculate the extent of reaction, ξ, for this reaction if 1.0 mole of F2 and 0.0 moles of F are present initially. The equilibrium pressure is 1.3 bar.

Compute the equilibrium extent of decomposition of pure dinitrogen tetroxide due to the chemical reaction N_2...

Compute the equilibrium extent of decomposition of pure dinitrogen tetroxide due to the chemical reaction N_2 O_4 (g)⇄2NO_2 (g) at 298.15 K and a pressure of 1 bar. Using Van’t Hoff equation, compute the equilibrium extent of decomposition of pure dinitrogen tetroxide at 350 K and 2 bar. Assume ideal gas. Will equilibrium conversion increase or decrease with increasing pressure? Data: The heat of formation of dinitrogen tetroxide at 298 K is 9,160 J/mol. The Gibbs free energy of formation...

The reaction of potassium metal with chlorine gas is exothermic and proceeds according to the following...

The reaction of potassium metal with chlorine gas is exothermic and proceeds according to the following chemical equation. Cl2 (g) + 2K (s) --> 2KCl (s) deltaH*_rxn = -873.0 kJ*mol^-1 Calculate the energy released as heat when 4.54 L of chlorine gas are allowed to react with excess potassium at 25*C and 1.00 bar. A: -2160 kJ B: -160 kJ C: -109 kJ D: -873 kJ

Consider the reaction between iodine gas and chlorine gas to form iodine monochloride: I2(g)+Cl2(g)⇌2ICl(g)Kp=81.9 (at 298...

Consider the reaction between iodine gas and chlorine gas to form iodine monochloride: I2(g)+Cl2(g)⇌2ICl(g)Kp=81.9 (at 298 K) A reaction mixture at 298 K initially contains PI2=0.35 atm and PCl2=0.35 atm . What is the partial pressure of iodine monochloride when the reaction reaches equilibrium?

Consider the reaction between iodine gas and chlorine gas to form iodine monochloride: I2(g)+Cl2(g)⇌2ICl(g)Kp=81.9 (at 298...

Consider the reaction between iodine gas and chlorine gas to form iodine monochloride: I2(g)+Cl2(g)⇌2ICl(g)Kp=81.9 (at 298 K) A reaction mixture at 298 K initially contains PI2=0.40 atm and PCl2=0.40 atm . What is the partial pressure of iodine monochloride when the reaction reaches equilibrium?

The reversible, gas-phase reaction, 2A->B is in equilibrium in a piston-cylinder at 3.5-bar pressure. At equilibrium,...

The reversible, gas-phase reaction, 2A->B is in equilibrium in a piston-cylinder at 3.5-bar pressure. At equilibrium, the system contains 2.0 mol A and 3.0 mol B. When 5.0 mol of an inert gas are added to the system, how many moles of B are present at equilibrium? The pressure and temperature do not change. Assume ideal gases.

Thermodynamics: Consider the equilibrium reaction A(g) + B(g) -><- C(g)+D(g). At T=298 K, the standard enthalpies...

Thermodynamics: Consider the equilibrium reaction A(g) + B(g) -><- C(g)+D(g). At T=298 K, the standard enthalpies of formation of the components in the gas phase are -20, -40, -30, and -10 kJ/mol for A,B,C, and D, respectively. The standard-state entropies of the components in the gas phase are 30, 50, 50, and 80 J/(mol K), in the same order. The vapor pressure of liquid C at this temperature is 0.1 bar, while all other components are volatile gases with Henry's...

In the gas-phase reaction 2A+B ? 3C + 2D, it was found that when 1.50 mole...

In the gas-phase reaction 2A+B ? 3C + 2D, it was found that when 1.50 mole A, 2.00 mole B and 1.00 mole D were mixed and allowed to come to equilibrium at 25oC, the resulting mixture contained 1.20 mol C at a total pressure of 2.00 bar. Calculate (a) the mole fractions of each species at equalibrium xA=, xB=, xc=, xD= (b) Kx = (c)Kp= (d) ?rGo= Please enter all answers in (a) with 3 decimals. for example, 0.4467...

1.      Calculate the standard free energy change at 500 K for the following reaction. Cu(s) +...

1.      Calculate the standard free energy change at 500 K for the following reaction. Cu(s) + H2O(g) à CuO(s) + H2(g) ΔH˚f (kJ/mol) S˚ (J/mol·K) Cu(s)    0    33.3    H2O(g)    -241.8    188.7    CuO(s)    -155.2    43.5    H2(g)     0    130.6 2.      When solid ammonium nitrate dissolves in water, the resulting solution becomes cold. Which is true and why? a.      ΔH˚ is positive and ΔS˚ is positive b.      ΔH˚ is positive and ΔS˚...

please answear each question 1)At equilibrium, ________. a)the rates of the forward and reverse reactions are...

please answear each question 1)At equilibrium, ________. a)the rates of the forward and reverse reactions are equal b)the value of the equilibrium constant is 1 c)all chemical reactions have ceased d)the rate constants of the forward and reverse reactions are equal e)the limiting reagent has been consumed 2)The equilibrium-constant expression depends on the ________ of the reaction. a) stoichiometry b) mechanism c) the quantities of reactants and products initially present d) temperature e) stoichiometry and mechanism 3)Given the following reaction...