Carbon tetrachloride reacts at high temperatures with oxygen to produce two toxic gases, phosgene and chlorine. CCM()+¹/20₂) COCI₂(g) + Cl₂(g). Ke-4.4 x 10 at 1,000 K Calculate K, for the reaction 2CCl4(g) + O2(g) + 2COC₂(g) + 2Cl₂(g). 1.9 × 1019 1.9 × 1010 4.4 x 10 None of those is correct 8.8×10

 

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Carbon tetrachloride reacts at high temperatures with oxygen to produce two toxic gases, phosgene and chlorine. CC14(8) + ¹/2O2(g) → COC₂(g) + Cl₂(g). Ke-4.4 x 10% at 1,000 K Calculate K, for the reaction 2CCl4(g) + O₂(g)2COC₂(g) + 2Cl₂(g). 1.9 x 1019 1.9 x 1010 4.4 x 10⁹ None of those is correct 8.8 × 10⁹ 3. At 700 K, the reaction 2502(g) + O₂(g) 2503(g) has the equilibrium constant K 4.3 x 106, and the following concentrations are present: (SO₂) - 0.10 M; [SO] - 10. M: [0₂] = 0.10 M. Is the mixture at equilibrium? If not at equilibrium, in which direction (as the equation is written), left to right or right to left, will the reaction proceed to reach equilibrium? Yes, the mixture is at equilibrium. There is not enough information to be able to predict the direction. No, left to right No, right to left For the reaction H₂(g) + 12(g) + 2HI(g), K-50.2 at 445°C. If [H₂] - [1₂] - [HI] - 1.75 x 10-3 M at 445°C, which one of these statements is true? The system is at equilibrium, thus no concentration changes will occur. The concentrations of H₂ and 12 will increase as the system approaches equilibrium. The concentrations of HI and I will increase as the system approaches equilibrium. The concentration of HI will increase as the system approaches equilibrium. The concentrations of H₂ and HI will fall as the system moves toward equilibrium. 4. Consider the following equilibria: 2503(g) 250₂(g) + O₂(g) Ke-2.3 x 10-7 2NO3(g) + 2NO₂(g) + O₂(g) Ke-1.4 x 10-3 Calculate the equilibrium constant for the reaction SO2(g) + NO3(g) → SO3(g) + NO₂(g) 3.2 x 10-10 78 None of those is correct 1.3 x 10-2 1.6 x 10-4