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It is a bisector.
That's the name of the plane with the horizontal x-axis and the vertical y-axis on which equations and inequalities with two variables are graphed. The Cartesian coordinate plane is to two dimensions as the number line is to one dimension.
A line segment is a piece of a line with endpoints at both ends. This can exist on a coordinate plane, which is a pointed selection at an origin.
When it has 4 equal sides and 4 equal right angles of 90 degrees
In the Cartesian plane, the dependent variable is usually plotted on the y-axis.
A Segment Bisector
It is a bisector.
It is a bisector.
A line that is perpendicular to the segment of a plane and passes through the midpoint.
That's the name of the plane with the horizontal x-axis and the vertical y-axis on which equations and inequalities with two variables are graphed. The Cartesian coordinate plane is to two dimensions as the number line is to one dimension.
A line segment is a piece of a line with endpoints at both ends. This can exist on a coordinate plane, which is a pointed selection at an origin.
You use the distance formula.
When it has 4 equal sides and 4 equal right angles of 90 degrees
In the Cartesian plane, the dependent variable is usually plotted on the y-axis.
In the Cartesian plane, the independent variable, if any, is usually plotted on the x-axis.
In the Cartesian plane, the independent variable, if any, is usually plotted on the x-axis.
If you mean a line segment, then yes, every line segment has a midpoint. However, some ideas of a line define it as going on forever in a certain plane, so if is it a line without beginning or end, then it can't really have a midpoint since there is nothing to measure from. You would have to define a starting and ending point before it could have a midpoint.