Consider a set of first-order consecutive reactions A → B → C . The rate constants are 8.4 × 10 − 4 s − 1 and 3.02 × 10 − 5 s − 1 , respectively. Plot the concentrations of A, B, and C versus time, and determine the time necessary to produce the maximum amount of the intermediate product B.
Consider a set of first-order consecutive reactions A → B → C . The rate constants are 8.4 × 10 − 4 s − 1 and 3.02 × 10 − 5 s − 1 , respectively. Plot the concentrations of A, B, and C versus time, and determine the time necessary to produce the maximum amount of the intermediate product B.
Solution Summary: The author explains how the graph of concentration of A, B and C versus time is plotted and the time required to produce maximum amount of product B is determined.
Consider a set of first-order consecutive reactions
A
→
B
→
C
. The rate constants are
8.4
×
10
−
4
s
−
1
and
3.02
×
10
−
5
s
−
1
, respectively. Plot the concentrations of A, B, and C versus time, and determine the time necessary to produce the maximum amount of the intermediate product B.
When talking about the acidity of carboxylic acids, is it the same thing to say higher or stronger acidity?
Using the following two half-reactions, determine the pH range in which $NO_2^-\ (aq)$ cannot be found as the predominant chemical species in water.* $NO_3^-(aq)+10H^+(aq)+8e^-\rightarrow NH_4^+(aq)+3H_2O(l),\ pE^{\circ}=14.88$* $NO_2^-(aq)+8H^+(aq)+6e^-\rightarrow NH_4^+(aq)+2H_2O(l),\ pE^{\circ}=15.08$
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