(I just need part B, I will include part A though in case you need that information to solve B.)
Part A
Part complete
In a study of the decomposition of the compound X via the reaction
X(g)⇌Y(g)+Z(g)
the following concentration-time data were collected:
Time (min) | [X](M) |
0 | 0.467 |
1 | 0.267 |
2 | 0.187 |
3 | 0.144 |
4 | 0.117 |
5 | 0.099 |
6 | 0.085 |
7 | 0.075 |
What is the order of the reaction? Second
Part B
Given that the rate constant for the decomposition of hypothetical compound X from part A is 1.60 M−1⋅min−1, calculate the concentration of X after 13.0 min .
Express your answer with the appropriate units.
(I just need part B, I will include part A though in case you need that information to solve B.) Part A Part complete In...
Given that the rate constant for the decomposition of hypothetical compound X from part A is 1.60 M−1⋅min−1, calculate the concentration of X after 18.0 min . X(g)⇌Y(g)+Z(g) Time (min) [X](M) 0 0.467 1 0.267 2 0.187 3 0.144 4 0.117 5 0.099 6 0.085 7 0.075
In a study of the decomposition of the compound X via the reaction X(g)⇌Y(g)+Z(g) the following concentration-time data were collected: Time (min) [X](M) 0 0.467 1 0.267 2 0.187 3 0.144 4 0.117 5 0.099 6 0.085 7 0.075 What is the order of the reaction? The reaction is second order. Part B Given that the rate constant for the decomposition of hypothetical compound X from part A is 1.60 M−1⋅min−1, calculate the concentration of X after 15.0 min ....
the following concentration-time data were collected: Time (min)(min) [X](M)[X](M) 0 0.467 1 0.267 2 0.187 3 0.144 4 0.117 5 0.099 6 0.085 7 0.075 Given that the rate constant for the decomposition of hypothetical compound XX from part A is 1.60 M−1⋅min−1M−1⋅min−1, calculate the concentration of XX after 15.0 minmin . Express your answer with the appropriate units.
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