- A 5 The Recombination Of Iodine Atoms To Form Molecular Iodine Follows Second Order Kinetics I G I G 12 G The R 1 (31.49 KiB) Viewed 12 times
á 5. The recombination of iodine atoms to form molecular iodine follows second-order kinetics: I(g) + I(g) → 12(g) The r
-
answerhappygod
- Site Admin
- Posts: 899603
- Joined: Mon Aug 02, 2021 8:13 am
á 5. The recombination of iodine atoms to form molecular iodine follows second-order kinetics: I(g) + I(g) → 12(g) The r
á 5. The recombination of iodine atoms to form molecular iodine follows second-order kinetics: I(g) + I(g) → 12(g) The rate constant is given as 0.070 M¹s. If the initial concentration of iodine is 0.086 M, calculate the concentration after 120 sec. (0,07)(120) - 1/10 = kt - = " (A)² (A) (A)+ 0,086 + = (0,07) (120) + ㅗ ㅗ ú = 8.4 +11.628 (Alt (0.086) (Alt = 20,028 : (Alt = 0,05 M. (Ale