IV. Reaction Order with Respect to Iodide Ionrate time s()I
s
==∆^3510 # -^4 M7 - A. /.
s
50 10 mol L 1 42857 10
35#^45
= #
- . /.
s
- . /.
50 10 mol L 9 61538 10
52#^46
= #
- . /.
s
- . /.
50 10 mol L 8 06452 10
62#^46
= #
- . /.
s
- . /.
mol L
7150 10# -^4 =7 04225 10# - 6. /.
s
mol L
14050 10# -^4 =3 57143 10# -^6V. Overall Reaction Order and the Rate Constant- Add all the partial orders to obtain the total reaction order.
Total reaction order: 1+0+1 = 2 - Average experimental rate constant using the experimental rate equation:
rate = k[H 2 O 2 ]^1 [H 3 O+]^0 [I–]^1 for parts II, III, and IV.
Part II. rate = k[H 2 O 2 ]^1
(1) 1.06383 × 10 –5= k(0.04) k 1 06383 10. 004. 2 6595 10.
#^54
==#
(2) 9.80392 × 10 –6= k(0.03) k 9 80392 10. 003. 3 2680 10.
#^64
==#(3) 8.33333 × 10 –6= k(0.022) k 8 33333 10. 0 022. 3 7878 10.
#^64
==#(4) 7.14286 × 10 –6= k(0.018) k 7 14286 10. 0 018. 3 9682 10.
#^64
==#(5) 5.5556 × 10 –6= k(0.014) k 5 5556 10. 0 014. 3 9682 10.
#^64
==#
- Average k for Part II
3.53 × 10 –4
- Average k for Part II
Part III. rate = k[H 3 O+]^0
(1) 1.11111 × 10 –5= k(0.04) k 1 11111 10. 004. 2 7777 10.
#^54
==#(2) 1.0000 × 10 –5= k(0.03) k 1 0000 10. 003. 3 3333 10.^4
#^5
==#(3) 6.66667 × 10 –6= k(0.022) k 6 66667 10. 0 022. 3 0303 10.
#^64
==#(4) 4.80769 × 10 –6= k(0.018) k 4 80769 10. 0 018. 2 6710 10.^4
#^6
==# -(5) 3.84615 × 10 –6= k(0.014) k 3 84615 10. 0 014. 2 7472 10.
#^64
==#
- Average k for Part III
2.91 × 10 –4
- Average k for Part III
2.7777 × 10 –4
3.3333 × 10 –4
3.0303 × 10 –4
2.6710 × 10 –4
+2.7472 × 10 –4
0.00145595 ÷5 = 2.91 × 10 –42.6595 × 10 –4
3.2680 × 10 –4
3.7878 × 10 –4
3.9682 × 10 –4
+3.9682 × 10 –4
0.00176517 ÷5 = 3.53 × 10 –4log (rate)log [I-]Graph
to find
y slope = order = yPart III: AP Chemistry Laboratory Experiments