Explore this applet demonstrating the midpoint between two points.
What connections exist between the endpoints of a line segment and the midpoint?
The midpoint of a line segment is a point exactly halfway along the segment. That is, the distance from the midpoint to both of the endpoints is the same.
The midpoint of any two points has coordinates that are exactly halfway between the $x$x-values and halfway between the $y$y-values. This means we can find the average of the two given $x$x-coordinates to find the $x$x-coordinate of the midpoint, and likewise the average of the two $y$y-coordinates will give us the $y$y-coordinate of the midpoint.
So for points $A$A$\left(x_1,y_1\right)$(x1,y1) and $B$B$\left(x_2,y_2\right)$(x2,y2) the midpoint will be:
$M$M$\left(\frac{x_1+x_2}{2},\frac{y_1+y_2}{2}\right)$(x1+x22,y1+y22)
Think of it as averaging the $x$x and $y$y-values of the endpoints.
Find the midpoint between $A$A$\left(3,4\right)$(3,4) and $B$B$\left(-5,12\right)$(−5,12)
Think: The midpoint will be the halfway point of the $x$x and $y$y-values.
We can find it using the average of the $x$x and $y$y-values of the endpoints, by using the formula:
$M$M$\left(\frac{x_1+x_2}{2},\frac{y_1+y_2}{2}\right)$(x1+x22,y1+y22)
Do: Substitute the coordinates of each point and evaluate. Check that your answer is reasonable.
$M$M$\left(\frac{3+\left(-5\right)}{2},\frac{3+12}{2}\right)=\left(-1,8\right)$(3+(−5)2,3+122)=(−1,8)
Reflect: Does it matter which point we choose to be $\left(x_1,y_1\right)$(x1,y1) and which is $\left(x_2,y_2\right)$(x2,y2)?
By convention, we work from left to right so the point with the lower $x$x-value is generally considered to be the point corresponding to $\left(x_1,y_1\right)$(x1,y1), but obviously if we went from right to left we should still end up with the same midpoint. Let's check!
We could have calculated the midpoints as follows:
$M$M$\left(\frac{-5+3}{2},\frac{12+3}{2}\right)=\left(-1,8\right)$(−5+32,12+32)=(−1,8)
Which is the co-ordinates of the midpoint we found in the first place. So it doesn't matter which point we choose to be $\left(x_1,y_1\right)$(x1,y1).
When we are dealing with negative values you may find it easier choosing one over the other.
What if we are given the midpoint of a segment, and one endpoints points of the segment? How can we reverse our steps above to find the other endpoint?
Suppose that the point $M$M$\left(2,-5\right)$(2,−5) is the midpoint of $A$A$\left(-4,3\right)$(−4,3) and $B$B. We want to find the coordinates of $B$B$\left(x,y\right)$(x,y).
Think: It would be helpful to sketch what this information looks like on the number plane, so we can anticipate where $B$B should lie.
Now to find $B$B, consider what we would usually do to find the coordinates of the midpoint.
We would find the average of the $x$x-values of $A$A and $B$B:
$\frac{-4+x}{2}$−4+x2
and the average of the $y$y-values of $A$A and $B$B:
$\frac{3+y}{2}$3+y2
In this scenario, we are given the values of the midpoint. That is:
$\left(2,-5\right)=\left(\frac{-4+x}{2},\frac{3+y}{2}\right)$(2,−5)=(−4+x2,3+y2)
which gives us
$\frac{-4+x}{2}=2$−4+x2=2, and $\frac{3+y}{2}=-5$3+y2=−5
Do: Solve each equation for its $x$x and $y$y-value:
$\frac{-4+x}{2}$−4+x2 | $=$= | $2$2 |
$-4+x$−4+x | $=$= | $4$4 |
$-4+4+x$−4+4+x | $=$= | $4+4$4+4 |
$x$x | $=$= | $8$8 |
$\frac{3+y}{2}$3+y2 | $=$= | $-5$−5 |
$3+y$3+y | $=$= | $-10$−10 |
$3-3+y$3−3+y | $=$= | $-10-3$−10−3 |
$y$y | $=$= | $-13$−13 |
This means that $B$B has coordinates $\left(8,-13\right)$(8,−13).
Reflect: Thinking logically, we can see that the midpoint's $x$x-value is $6$6 more than the $x$x-value of the known point (Compare $2$2 to $-4$−4), so we would expect the $x$x-value of the endpoint to be $6$6 more the midpoint, and $2+6=8$2+6=8 as expected.
Similarly the $y$y-value of the midpoint is $8$8 less than the midpoint (Compare $-5$−5 to $3$3), so we would expect the y-value to be $8$8 less than the the midpoint, and as expected $-5-8=13$−5−8=13.
$M$M is the midpoint of $A$A $\left(-8,-4\right)$(−8,−4) and $B$B $\left(2,8\right)$(2,8).
Find the coordinates of $M$M.
$M$M is the point $\left(\editable{},\editable{}\right)$(,)
$M$M is the midpoint of Point $A$A $\left(-7,5\right)$(−7,5) and Point $B$B $\left(1,-9\right)$(1,−9).
Plot $A$A and $B$B:
Find the coordinates of $M$M.
$M$M is the point $\left(\editable{},\editable{}\right)$(,)
If the midpoint of $A$A$\left(x,y\right)$(x,y) and $B$B$\left(16,7\right)$(16,7) is $M$M$\left(10,2\right)$(10,2):
What are the coordinates of $A$A?
$A$A $\left(\editable{},\editable{}\right)$(,)