Thermodynamics filled in class notes_Part_118

186 j cal 400014 1012 erg mole 7102 for this

Info iconThis preview shows page 1. Sign up to view the full content.

View Full Document Right Arrow Icon
This is the end of the preview. Sign up to access the rest of the document.

Unformatted text preview: 4.186 J cal = 4.00014 × 1012 erg . mole (7.102) For this reversible reaction, we slightly modify the kinetics equations to dρO = 2 a13 T β13 exp dt −E 13 RT ρO2 ρM − 1 ρρρ , Kc,13 O O M (7.103) =k13 (T ) =r13 dρO2 dt = − a13 T β13 exp −E 13 RT ρO2 ρM − 1 ρρρ Kc,13 O O M . (7.104) =k13 (T ) =r13 Here we have used equivalent definitions for k13 (T ) and r13 , so that Eqs. (7.103-7.104) can be written compactly as dρO = 2r13 , dt dρO2 = −r13 . dt (7.105) (7.106) CC BY-N...
View Full Document

This note was uploaded on 11/26/2011 for the course EGN 3381 taught by Professor Park-sou during the Fall '11 term at FSU.

Ask a homework question - tutors are online