Question
At the beginning of every soccer practice, Coach Alex has the players warm up and stretch. They do 3 minutes of warm-up exercises for every 2 minutes of stretching.
Complete the table.
Minutes of warm-ups 3 15
Minutes of stretching 2 4 6
Graph the data from the table.
Complete the table.
Minutes of warm-ups 3 15
Minutes of stretching 2 4 6
Graph the data from the table.
Answers
GPT-4o mini
To complete the table, we need to maintain the ratio of warm-up exercises to stretching, which is \(3\) minutes of warm-ups for every \(2\) minutes of stretching.
### Completing the Table
1. **For 3 minutes of warm-ups**:
- The corresponding stretching will be \(2\) minutes.
2. **For 15 minutes of warm-ups**:
- We can calculate the stretching using the ratio:
\[
\text{Stretching} = \left(\frac{2}{3}\right) \times 15 = 10 \text{ minutes}
\]
So, your completed table is:
| Minutes of warm-ups | 3 | 15 |
|---------------------|---|----|
| Minutes of stretching| 2 | 10 |
### Completed Table:
| Minutes of Warm-ups | 3 | 15 |
|---------------------|---|----|
| Minutes of Stretching | 2 | 10 |
### Graphing the Data
To graph the data from the table, plot the pairs of (warm-ups, stretching) as points on a coordinate plane:
- **Point 1**: \( (3, 2) \)
- **Point 2**: \( (15, 10) \)
1. On the X-axis, plot the minutes of warm-ups.
2. On the Y-axis, plot the minutes of stretching.
You can use a graph with the following scale if you like:
- X-axis scale (Minutes of warm-ups): 0 to 20 (increments of 3)
- Y-axis scale (Minutes of stretching): 0 to 12 (increments of 2)
### Graph Representation
1. Point (3, 2)
2. Point (15, 10)
Connect those points with a line to visualize the relationship, which in this case should be linear due to the proportionality.
### Overall Summary:
- The relationship shown in the graph represents the constant ratio of stretching to warm-up minutes during the practice sessions.
### Completing the Table
1. **For 3 minutes of warm-ups**:
- The corresponding stretching will be \(2\) minutes.
2. **For 15 minutes of warm-ups**:
- We can calculate the stretching using the ratio:
\[
\text{Stretching} = \left(\frac{2}{3}\right) \times 15 = 10 \text{ minutes}
\]
So, your completed table is:
| Minutes of warm-ups | 3 | 15 |
|---------------------|---|----|
| Minutes of stretching| 2 | 10 |
### Completed Table:
| Minutes of Warm-ups | 3 | 15 |
|---------------------|---|----|
| Minutes of Stretching | 2 | 10 |
### Graphing the Data
To graph the data from the table, plot the pairs of (warm-ups, stretching) as points on a coordinate plane:
- **Point 1**: \( (3, 2) \)
- **Point 2**: \( (15, 10) \)
1. On the X-axis, plot the minutes of warm-ups.
2. On the Y-axis, plot the minutes of stretching.
You can use a graph with the following scale if you like:
- X-axis scale (Minutes of warm-ups): 0 to 20 (increments of 3)
- Y-axis scale (Minutes of stretching): 0 to 12 (increments of 2)
### Graph Representation
1. Point (3, 2)
2. Point (15, 10)
Connect those points with a line to visualize the relationship, which in this case should be linear due to the proportionality.
### Overall Summary:
- The relationship shown in the graph represents the constant ratio of stretching to warm-up minutes during the practice sessions.