3. Given: A(g) + 2B(g) ?  AB2(g)  Kc = 59 ?H = -242 kJ/mol  A(g) + 3B(g) ?  AB3(g) Kc...

Solve. Please show all work, thank you!! 1. The first-order rearrangement of CH3NC is measured to...

Solve. Please show all work, thank you!! 1. The first-order rearrangement of CH3NC is measured to have a rate constant of 3.61 x 10-15 s-1 at 298 K and a rate constant of 8.66 × 10-7 s-1 at 425 K. Determine the activation energy for this reaction. 2.  If the concentration of a reactant is 6.25% of the starting concentration, how many half-lives has it gone through? 3. The equilibrium constant is given for two of the reactions below. Determine the...

Consider the following system at equilibrium where H° = 87.9 kJ/mol, and Kc = 1.20×10-2 ,...

Consider the following system at equilibrium where H° = 87.9 kJ/mol, and Kc = 1.20×10-2 , at 500 K. PCl5 (g) PCl3 (g) + Cl2 (g) When 0.32 moles of PCl5 (g) are added to the equilibrium system at constant temperature: the value of Kc A. increases. B. decreases. C. remains the same. the value of Qc A. is greater than Kc. B. is equal to Kc. C. is less than Kc. the reaction must: A. run in the forward...

For the reaction H(g) + H2(g) ↔ (H-H-H)#→ H2(g) + H(g), activation energy Ea= 23 kJ/mol...

For the reaction H(g) + H2(g) ↔ (H-H-H)#→ H2(g) + H(g), activation energy Ea= 23 kJ/mol and the preexponential factor A = 1.5 x 1010 L mol-1s-1 at 298 K. Determine ∆H#, ∆S#, ∆G# and Kc#

Given the following reactions and their enthalpies: ΔH(kJ/mol)−−−−−−−−−−− H2(g)⟶2H(g)   +436 O2(g)⟶2O(g)   +495 H2+1/2O2(g)⟶H2O(g)   −242 A. Devise...

Given the following reactions and their enthalpies: ΔH(kJ/mol)−−−−−−−−−−− H2(g)⟶2H(g)   +436 O2(g)⟶2O(g)   +495 H2+1/2O2(g)⟶H2O(g)   −242 A. Devise a way to calculate ΔH for the reaction H2O(g)⟶2H(g)+O(g) B. estimate the H-O bond energy

if ∆G° of the following reaction is -110 kj/mol, what is E°cell? (F=96,500 C*mol^-1) A^3+(aq)+3B(s)->A(s)+3B^+(aq)

if ∆G° of the following reaction is -110 kj/mol, what is E°cell? (F=96,500 C*mol^-1) A^3+(aq)+3B(s)->A(s)+3B^+(aq)

When N2O5(g) is heated it dissociates into N2O3(g) and O2(g) according to the reaction: N2O5(g)⇌N2O3(g)+O2(g) Kc=7.75...

When N2O5(g) is heated it dissociates into N2O3(g) and O2(g) according to the reaction: N2O5(g)⇌N2O3(g)+O2(g) Kc=7.75 at a given temperature The N2O3(g) dissociates to give N2O(g) and O2(g) according the reaction: N2O3(g)⇌N2O(g)+O2(g) Kc=4.00 at the same temperature When 4.00 mol of N2O5(g) is heated in a 1.00-Lreaction vessel to this temperature, the concentration of O2(g) at equilibrium is 4.50 mol/L. Part A: Find the concentration of N2O5 in the equilibrium system. Part B: Find the concentration of N2O in the...

At 2000 degrees celcius, the gas-phase equilibrium 2NO(g)=N2(g)+o2(g) has an equilibrium constant of Kc=2.4X10^3. Use this...

At 2000 degrees celcius, the gas-phase equilibrium 2NO(g)=N2(g)+o2(g) has an equilibrium constant of Kc=2.4X10^3. Use this information to answer the following. a) Determine the relationship between Kc and Kp for this equilibrium. What is the value of Kp? b) Determine the value of Kc for the reaction 1/2N2(g)+1/2O2(g)=NO(g). c) Determine the equilibrium concentrations of NO, N2, O2 when 0.200 mol NO(g) is placed into a (n evacuated) 1.000 L container and heated to 2000 degrees celcius.

Consider the following system at equilibrium where H° = -111 kJ, and Kc = 0.159, at...

Consider the following system at equilibrium where H° = -111 kJ, and Kc = 0.159, at 723 K. N2(g) + 3H2(g) 2NH3(g) If the VOLUME of the equilibrium system is suddenly increased at constant temperature: The value of Kc: A. increases. B. decreases. C. remains the same. The value of Qc: A. is greater than Kc. B. is equal to Kc. C. is less than Kc. The reaction must: A. run in the forward direction to reestablish equilibrium. B. run...

You are given the following data: H2(g) --> 2H(g) Delta H degrees=436.4 kJ/mol Br2(g) --> 2Br(g)...

You are given the following data: H2(g) --> 2H(g) Delta H degrees=436.4 kJ/mol Br2(g) --> 2Br(g) Delta H degrees=192.5 kJ/mol H2(g) + Br2(g) --> 2HBr(g) Delta H degrees=-72.4 kJ/mol Calculate Delta H degrees for the reaction H(g) + Br(g) --> HBr(g)

Given the following reactions and their enthalpies: ΔH(kJ/mol)−−−−−−−−−−− H2(g)⟶2H(g) +436 O2(g)⟶2O(g) +495 H2+12O2(g)⟶H2O(g) −242 Part A...

Given the following reactions and their enthalpies: ΔH(kJ/mol)−−−−−−−−−−− H2(g)⟶2H(g) +436 O2(g)⟶2O(g) +495 H2+12O2(g)⟶H2O(g) −242 Part A Devise a way to calculate ΔH for the reaction H2O(g)⟶2H(g)+O(g)