h = 6.63 x10-34 s 760mmHg = 1 atm N= 6.02 x1023 particle/mol 1 cal = 4.18 J 1 A° = 10-10 m 1 Latm = 101.3 J T (K) = T(°C) + 273.15 R= 0.082 Latm/K.mol = 8.3145 J/K.mol R = 2.179 x 10-18 c = 3.0 x 10° m.s- 1e= 1.602x 10-19 C mass of e = 9.109 x10-31 kg Disproportionation of COCI2(g) is a reversible reaction where it yields CO(g) and Cl2(g). Considering disproportionation of COCiz(g), what is the apparent molar mass of the gaseous mixture that results when o of 4.44x10-2 (Hint: Think of the apparent molar mass as the molar mass of a hypothetical single gas that is equivalent to COCl2{g) is allowed to dissociate at 405 °C and a final total pressure of 3.00 atm with a the gaseous mixture.) Select one: O a. 52.3 g/mol O b. 89.1 g/mol O c 45.4 g/mol O d. 69.6 g/mol O e. 87.1 g/mol

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h = 6.63 x10-34 Js 760mmHg = 1 atm Na= 6.02 x1023 particle/mol 1 cal = 4.18 J 1 A° = 10-10 m 1 Latm = 101.3 J T (K) = T(°C) + 273.15 R = 0.082 Latm/K.mol = 8.3145 J/K.mol RH = 2.179 x 10-18 c = 3.0 x 10° m.s- 1e= 1.602x 10-19 C mass of e = 9.109 x10-31 ka Disproportionation of COCi2(g) is a reversible reaction where it yields CO(g) and Cl2(g). Considering disproportionation of COCl2(g), what is the apparent molar mass of the gaseous mixture that results when COCI2(g) is allowed to dissociate at 405 °C and a final total pressure of 3.00 atm with a Kp of 4.44x102? (Hint: Think of the apparent molar mass as the molar mass of a hypothetical single gas that is equivalent to the gaseous mixture.) Select one: O a 52.3 g/mol O b. 89.1 g/mol Oc. 45.4 g/mol O d. 69.6 g/mol O e. 87.1 g/mol