Points: (-2, -4) and (4, -14)
Midpoint: (1, -9)
To find the midpoint between the points (-4, 10) and (14, 0), you can use the midpoint formula: ((\frac{x_1 + x_2}{2}, \frac{y_1 + y_2}{2})). Plugging in the coordinates, we get: ((\frac{-4 + 14}{2}, \frac{10 + 0}{2})), which simplifies to ((5, 5)). Thus, the midpoint is (5, 5).
To find the midpoint of the segment with endpoints D(3, 4) and E(7, 14), use the midpoint formula: M = ((x₁ + x₂)/2, (y₁ + y₂)/2). Plugging in the values, we get M = ((3 + 7)/2, (4 + 14)/2) = (10/2, 18/2) = (5, 9). Thus, the midpoint is M(5, 9).
If you mean points of (-4, 6) and (4, -2) then the midpoint is at (0, 2)
Midpoint of line from (4, 0) to (0, 2) is: ((4 + 0)/2, (0 + 2)/2) = (4/2, 2/2) = (2, 1)
The midpoint between -2 and 6 is 2. 2 is 4 units away from both 6 and -2.
Points: (-4, -14) and (-22, 9) Midpoint: (-4-22)/2, (-14+9)/2 => (-13, -2.5)
To find the midpoint between the points (-4, 10) and (14, 0), you can use the midpoint formula: ((\frac{x_1 + x_2}{2}, \frac{y_1 + y_2}{2})). Plugging in the coordinates, we get: ((\frac{-4 + 14}{2}, \frac{10 + 0}{2})), which simplifies to ((5, 5)). Thus, the midpoint is (5, 5).
Midpoint: (2, -9)
To find the midpoint of the segment with endpoints D(3, 4) and E(7, 14), use the midpoint formula: M = ((x₁ + x₂)/2, (y₁ + y₂)/2). Plugging in the values, we get M = ((3 + 7)/2, (4 + 14)/2) = (10/2, 18/2) = (5, 9). Thus, the midpoint is M(5, 9).
If you mean points of (-4, 6) and (4, -2) then the midpoint is at (0, 2)
If you mean points of (-4, 6) and (4, -2) then the midpoint is at (0, 2)
If you mean points of (-4, 6) and (4, -2) then the midpoint is at (0, 2)
Points: (-4, 6) and (4, -2) Midpoint: (0, 2)
Endpoints: (2, 4) and (2, -4) Midpoint: (2, 0)
midpoint between 4-16
Points: (-1, -9) and (4, -2) Midpoint: (3/2, -11/2)
Endpoints: (-2,-2) and (4, 6) Midpoint: (1, 2)