4. Th n na an uza Ertre n the Ive po allo xe-p sion! aute Enfice mu 11 enter star Rous ( HOU 'S P Concer ressi Solul 24 sides method. 6. The question asks you to solve the equilibrium concentrations for a reaction using the squaring both A mixture of 0.250 M H₂ and 0.250 M 1₂ was placed on a stainless steel autoclave at 430 °C. The equilibrium constant for the reaction below is 54.3. Calculate the equilibrium concentrations of the reactants and products at equilibrium. H₂(g) + 12(g) 2HI(g) a) Write the equilibrium equations. b) Build an ICE table. I C E H₂ 12 c) Plug in the "E" values into the equilibrium equation. d) Solve for x by taking the square root of each side. HI e) Input the values of x into the "E" values and report the equilibrium concentrations. [H₂] = [1₂] = [HI]= =

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a tec ICH - ath attr forces unding 7, F-H nsion-ar 7-thein n-attractio 4-a measur 24 Caltemy, ral p 20 4. Th 8 Cna ~Intration ² an tional crystaluza lligative propertie Colution + not on the smosis-selective pr Bean of mable-allo Assmotic pressure-p Bollivd-dispersion! ratelante Concentic half life time it activation enter patalyst-substar heterogeneous homagen-cou Henry's! секр C= Concer pressi KC Solu 129 sides method. 6. The question asks you to solve the equilibrium concentrations for a reaction using the squaring both A mixture of 0.250 M H₂ and 0.250 M 12 was placed on a stainless steel autoclave at 430 °C. The equilibrium constant for the reaction below is 54.3. Calculate the equilibrium concentrations of the reactants and products at equilibrium. H₂(g) + 12(g) 2HI(g) a) Write the equilibrium equations. b) Build an ICE table. T C E H₂ 12 c) Plug in the "E" values into the equilibrium equation. d) Solve for x by taking the square root of each side. HI e) Input the values of x into the "E" values and report the equilibrium concentrations. [H₂] = [1₂] = [HI] =