Consider the reaction A -> B. a. If you start with a 4.00 M solution of A (and no B), draw a plot of concentration vs. time for [A].

Chemistry
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Chapter1: Chemical Foundations
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Draw a graph the represents this reaction using the information given please
**Consider the reaction A -> B.**

b. On the same graph, show how [B] changes over the same time.

*Explanation of Graph*:
The graph appears to be divided into two sections: one graph for [A] vs. time and a blank area for [B] vs. time. Here's a detailed description:

1. **Graph for Concentration of A ([A]) vs. Time**:
   - The graph on the left shows a plot of [A] over time as a downward-sloping curve.
   - The starting point on the y-axis (concentration) is at the top, indicating high initial concentration.
   - As time progresses (x-axis), the concentration of A decreases, reaching a lower value near the bottom of the graph.

2. **Blank Graph Space for Concentration of B ([B]) vs. Time**:
   - On the right or in the blank space, you will need to plot [B].
   - Since B is formed from A, [B] should start low and increase over time as A is converted to B.
   - The curve is anticipated to be upward-sloping, starting from a low concentration and approaching a higher concentration as time goes on.

Consider adding labels for axes:
- **Y-axis**: Concentration (M)
- **X-axis**: Time (s)

This setup illustrates the principle of a chemical reaction where reactant A is converted over time into product B.
Transcribed Image Text:**Consider the reaction A -> B.** b. On the same graph, show how [B] changes over the same time. *Explanation of Graph*: The graph appears to be divided into two sections: one graph for [A] vs. time and a blank area for [B] vs. time. Here's a detailed description: 1. **Graph for Concentration of A ([A]) vs. Time**: - The graph on the left shows a plot of [A] over time as a downward-sloping curve. - The starting point on the y-axis (concentration) is at the top, indicating high initial concentration. - As time progresses (x-axis), the concentration of A decreases, reaching a lower value near the bottom of the graph. 2. **Blank Graph Space for Concentration of B ([B]) vs. Time**: - On the right or in the blank space, you will need to plot [B]. - Since B is formed from A, [B] should start low and increase over time as A is converted to B. - The curve is anticipated to be upward-sloping, starting from a low concentration and approaching a higher concentration as time goes on. Consider adding labels for axes: - **Y-axis**: Concentration (M) - **X-axis**: Time (s) This setup illustrates the principle of a chemical reaction where reactant A is converted over time into product B.
**Consider the reaction A -> B.**

**a.** If you start with a 4.00 M solution of A (and no B), draw a plot of concentration vs. time for [A].
Transcribed Image Text:**Consider the reaction A -> B.** **a.** If you start with a 4.00 M solution of A (and no B), draw a plot of concentration vs. time for [A].
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