What is the rate of disappearance of Br2 when [NO]= 8.6×10−2 M and [Br2]= 0.31 M ?
Express your answer using two significant figures.
The rate of disappearance of Br2 is half the rate of appearance
of NOBr, and the initial problem was: Consider the gas-phase
reaction between nitric oxide and bromine at 273 ∘C
2NO(g)+Br2(g)→2NOBr(g).
The following data for the initial rate of appearance of NOBr were
obtained:
Experiment | [NO](M) | [Br2](M) | Initial Rate of Appearance of NOBr(M/s) |
1 | 0.10 | 0.20 | 24 |
2 | 0.25 | 0.20 | 150 |
3 | 0.10 | 0.50 | 60 |
4 | 0.35 | 0.50 | 735 |
k = |
1.2×104 |
M-2 s-1 . |
What is the rate of disappearance of Br2 when [NO]= 8.6×10−2 M and [Br2]= 0.31 M...
Consider the gas-phase reaction between nitric oxide and bromine at 273 ∘C 2NO(g)+Br2(g)→2NOBr(g). The following data for the initial rate of appearance of NOBr were obtained: Experiment [NO](M) [Br2](M) Initial Rate of Appearance of NOBr(M/s) 1 0.10 0.20 24 2 0.25 0.20 150 3 0.10 0.50 60 4 0.35 0.50 735 What is the rate of disappearance of Br2 when [NO]= 8.1×10−2 M and [Br2]= 0.22 M ? Express your answer using two significant figures.
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I understand a-c, but not d. The answer is 8.4 M/s but I do not know how to find it. Consider the gas-phase reaction between nitric oxide and bromine at 273 °C: 2 NO(g) + Brz(8) — 2 NOBr(8). The following data for the initial rate of appearance of NOBr were obtained: Experiment Initial Rate (M/s) 24 2 [NO](M) 0.10 0.25 0.10 0.35 [Br21(M) 0.20 0.20 0.50 0.50 150 60 735 (a) Determine the rate law. (b) Calculate the average...
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