Consider the reaction: Z ? products The rate law was experimentally determined t
ID: 796098 • Letter: C
Question
Consider the reaction: Z ? products
The rate law was experimentally determined to be rate = k[Z] because
the graph of [Z]2 vs. time was linear.
the graph of [Z] vs. time was linear.
the graph of ln [Z] vs. time was linear.
the graph of 1/[Z] vs. time was linear.
the graph of 1/[Z]2 vs. time was linear.
Consider the reaction: Y ? products
The rate law was experimentally determined to be rate = k[Y]2 because
the graph of 1/[Y]2 vs. time was linear.
the graph of ln [Y] vs. time was linear.
the graph of 1/[Y] vs. time was linear.
the graph of [Y]2 vs. time was linear.
the graph of [Y] vs. time was linear.
Consider the reaction: X ? products
The rate law was experimentally determined to be rate = k[X]0 = k because
the graph of [X] vs. time was linear.
the graph of [X]2 vs. time was linear.
the graph of 1/[X]2 vs. time was linear.
the graph of 1/[X] vs. time was linear.
the graph of ln [X] vs. time was linear.
Consider the reaction: A + B ? products
The following rate law was experimentally determined: rate = k[A][B]2
If the concentration of A stays the same and B doubles, the rate will
increase by a factor of sixteen.
triple.
quadruple.
increase by a factor of eight.
double.
Explanation / Answer
1)the graph of ln[A] vs. time was linear.
2)the graph of 1/[Y] vs. time was linear.
3)the graph of [X] vs. time was linear.
4)quadruple.