Answer:
The distances between the given points are;
MN = PQ = √41
PN = QM = √26
Step-by-step explanation:
The given coordinates of the vertices of the quadrilateral are;
A(-3, -4), B(3, 0), C(5, 6), D(-7, 2)
The midpoint of AB = The point M
The midpoint of BC = The point N
The midpoint of CD = The point P
The midpoint of DA = The point Q
Therefore;
The coordinates of the point M = ((-3 + 3)/2, (-4 + 0)/2) = (0, -2)
The coordinates of the point N = ((3 + 5)/2, (0 + 6)/2) = (4, 3)
The coordinates of the point P = ((5 + (-7))/2, (6 + 2)/2) = (-1, 4)
The coordinates of the point Q = ((-7 + (-3))/2, (2 + (-4))/2) = (-5, -1)
The formula for the distance, d, between two coordinates is given as follows;
[tex]d = \sqrt{\left (y_{2}-y_{1} \right )^{2}+\left (x_{2}-x_{1} \right )^{2}}[/tex]
The distance of MN using an online distance between coordinates calculation tool is therefore;
[tex]d_{MN} = \sqrt{\left (3-(-2) \right )^{2}+\left (4 - 0 \right )^{2}} = \sqrt{41}[/tex]
The distance of PQ is given as follows;
[tex]d_{PQ} = \sqrt{\left ((-1)-4 \right )^{2}+\left (-5 - (-1) \right )^{2}} = \sqrt{41}[/tex]
Therefore;
MN = PQ = √41
The distance of PN is given as follows;
[tex]d_{PN} = \sqrt{\left (3-4 \right )^{2}+\left (4 - (-1) \right )^{2}} = \sqrt{26}[/tex]
The distance of QM is given as follows;
[tex]d_{QM} = \sqrt{\left (-2-(-1) \right )^{2}+\left (0 - (-5) \right )^{2}} = \sqrt{26}[/tex]
PN = QM = √26
