Temperature on Homogeneous Gas Reactions. 229 



giving the equilibrium constant 



; ^ab • e 



9 ho "X C 2 



v c e 



This induces to the well-known expression 



log e K e = « + 1 +7 . log 6> + S . 0, 



where a = J jjog e -^ + log, ^ - log e ~J +'og e ~, 



/3=g[E (; -E <l -E 6 ], 



6 -2Le„ + b s eJ- 



Take the reaction 



n a A. + n 6 B ^ n c G + w d D. 

 The equilibrium constant is 



n a x c ?-n h x# f , 1 1 H « f 1 l n ?> 



Vab-e 

 K= — 



r lT«r It 



.1 "1"^ 



•«r liu IT 



Again this reduces to the form 



log.K<,=«+|+ 7 .log.0i-8.0, 



where , r . E a , , E* 



« = i I w« log^ + w 6 log e ^ 



-"doge^ -nrflog.-g-J 4log,— , 



* R r'n a «» _ ^» _ ^"1 



6 -2LE a " h E 6 E c EJ* 

 PAt'Z. Mag. Ser. 6. Vol. 37. No. 218. jFM. 1919. R 



