LookingSharp
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5Br-(aq) + BrO3-(aq) + 6H+(aq) --> 3Br2(l) + 3H2O(l)
The above reaction is expected to obey the mechanism:
BrO3-(aq) + H+(aq) = HBrO3(aq) Fast equilibrium
HBrO3(aq) + H+(aq) = H2BrO3+(aq) Fast equilibrium
H2BrO3+(aq) + Br-(aq) --> (Br-BrO2)(aq) + H2O(l) Slow
(Br-BrO2)(aq) + 4H+(aq) + 4Br-(aq) --> products Fast
Choose, from the list below, correct expressions for the overall rate law which are completely consistent with the above mechanism.
k[Br-][H+]2[BrO3-] = -d[Br-]/dt
-d[H+]/dt = k[BrO3-][Br-][H+]2
-d[BrO3-]/dt = k[Br-]2[BrO3-][H+]
-d[Br-]/dt = k[Br-][H+]2[BrO3-]
d[Br-BrO2]/dt = k[Br-][BrO3-][H+]2
-d[Br-]/dt = k[Br-][BrO3-][H+]
The above reaction is expected to obey the mechanism:
BrO3-(aq) + H+(aq) = HBrO3(aq) Fast equilibrium
HBrO3(aq) + H+(aq) = H2BrO3+(aq) Fast equilibrium
H2BrO3+(aq) + Br-(aq) --> (Br-BrO2)(aq) + H2O(l) Slow
(Br-BrO2)(aq) + 4H+(aq) + 4Br-(aq) --> products Fast
Choose, from the list below, correct expressions for the overall rate law which are completely consistent with the above mechanism.
k[Br-][H+]2[BrO3-] = -d[Br-]/dt
-d[H+]/dt = k[BrO3-][Br-][H+]2
-d[BrO3-]/dt = k[Br-]2[BrO3-][H+]
-d[Br-]/dt = k[Br-][H+]2[BrO3-]
d[Br-BrO2]/dt = k[Br-][BrO3-][H+]2
-d[Br-]/dt = k[Br-][BrO3-][H+]