[ y = 2x + 4 ] represents a single line, with slope = 2 and y-intercept = 4.
There are two possibilities. If the y intercepts are unique, the lines are parallel. If the y intercepts are the same, the lines are coincident. ( They are the same line)
There is no relationship between the slopes of parallel or perpendicular lines and their y-intercepts.
If the lines are straight and have the same slope they are parallel, no matter what the y intercept is
6
Are perpendicular to one another.
The slope is 2 and the y intercept is 4
If the slopes are different the lines are neither - they intersect. They are parallel or coincident if the slopes are the same. Then, if the y-intercepts are the same they are coincident while if the y-intercepts are different, they are parallel.
When their slopes are of the same value and their y intercepts are different
If two lines have different slopes, then they intersect at exactly one point. It makes no difference what their y-intercepts are.
There are two possibilities. If the y intercepts are unique, the lines are parallel. If the y intercepts are the same, the lines are coincident. ( They are the same line)
If they are straight lines, then one solution.
There is no relationship between the slopes of parallel or perpendicular lines and their y-intercepts.
They have equal slopes, equal y-intercepts, equal x-intercepts,and if they are line segments, then they have equal lengths.
No the only time that a system of equations would have no solutions is when the two equations have the same slope but different y-intercepts which would mean that they are parallel lines. However, if they have different slopes and different y-intercepts than the solution would be where the two lines intersect.
The slopes of parallel lines remain equal distance apart and when plotted on the Cartesian plane they have the same slope but with different y intercepts.
If the lines are straight and have the same slope they are parallel, no matter what the y intercept is
Same slopes and different intercepts