Question

To determine which of the provided systems of linear equations represent lines in a coordinate plane, we need to analyze each pair of equations.

1. **x = 2 and y = 4**:
- This represents the vertical line x = 2 and the horizontal line y = 4. They intersect at the point (2, 4).

2. **x = 4 + y and y = 2 + x**:
- The first equation can be rearranged to y = x - 4 (since x - 4 = y).
- The second equation can be rearranged to y = x - 2.
- These equations represent two lines with different slopes (both have a slope of 1), so they are not parallel and will intersect at a point.

3. **y = 2x - 2 and y = x - 2**:
- The first equation has a slope of 2, and the second equation has a slope of 1. Since the slopes are different, these lines will intersect.

4. **x = 2 + y and y = 4 + x**:
- Rearranging the first equation gives y = x - 2.
- The second equation rearranges to y = x - 4. Both lines are parallel because they have the same slope (1) and different y-intercepts, so they do not intersect.

5. **y = x + 2 and y = 2x**:
- The first equation has a slope of 1 and the second has a slope of 2. They will intersect since they have different slopes.

From the analysis:
- **The pairs that represent intersecting lines (which corresponds to systems of linear equations that can represent two lines) are:**
- x = 2 and y = 4
- x = 4 + y and y = 2 + x
- y = 2x - 2 and y = x - 2
- y = x + 2 and y = 2x

**The pairs that do not represent two intersecting lines are:**
- x = 2 + y and y = 4 + x (because both pairs of equations lead to parallel lines)

Thus, select all that apply:
- x = 2 and y = 4
- x = 4 + y and y = 2 + x
- y = 2x - 2 and y = x - 2
- y = x + 2 and y = 2x