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Which methods could you use to calculate the y-coordinate of the midpoint of a vertical line segment with endpoints at (0 0) and (0 15)?
To calculate the y-coordinate of the midpoint of a vertical line segment with endpoints at (0, 0) and (0, 15), you can use the midpoint formula, which is given by ( \text{Midpoint} = \left( \frac{x_1 + x_2}{2}, \frac{y_1 + y_2}{2} \right) ). Here, since both endpoints share the same x-coordinate (0), you only need to average the y-coordinates: ( \frac{0 + 15}{2} = 7.5 ). Thus, the y-coordinate of the midpoint is 7.5.
Which methods could you use to calculate the y-coordinate of the midpoint of a vertical line segment with endpoints at (00)and (015)?
The coordinates of the midpoint are the averages of the coordinates of the end points. So (0, 7.5).
Which methods could you use to calculate the y-coordinate of the midpoint of a vertical line segment with endpoints (00) and (015)?
The coordinates of the midpoint are the averages of the coordinates of the end points. So (0, 7.5).
Which methods could you use to calculate the y-coordinate of the midpoint of a vertical line segment with endpoints at (0 0) and (0 -12)?
To calculate the y-coordinate of the midpoint of a vertical line segment with endpoints at (0, 0) and (0, -12), you can use the midpoint formula, which is ( M_y = \frac{y_1 + y_2}{2} ). Here, ( y_1 = 0 ) and ( y_2 = -12 ), so the calculation becomes ( M_y = \frac{0 + (-12)}{2} = \frac{-12}{2} = -6 ). Thus, the y-coordinate of the midpoint is -6.
Which methods could you use to calculate they y-coordinate of the midpoint of a vertical line segment at (00) and (015)?
To calculate the y-coordinate of the midpoint of a vertical line segment with endpoints at (0, 0) and (0, 15), you can use the midpoint formula, which states that the midpoint (M) between two points ((x_1, y_1)) and ((x_2, y_2)) is given by (M = \left(\frac{x_1 + x_2}{2}, \frac{y_1 + y_2}{2}\right)). In this case, the x-coordinates are the same (0), so the midpoint's x-coordinate is 0. For the y-coordinates, you calculate (\frac{0 + 15}{2} = 7.5), thus the midpoint is at (0, 7.5).
Which methods could you use to calculate the y-coordinate of the midpoint of a vertical line segment with endpoints at (0 0) and (0 15)?
To calculate the y-coordinate of the midpoint of a vertical line segment with endpoints at (0, 0) and (0, 15), you can use the midpoint formula, which is given by ( \text{Midpoint} = \left( \frac{x_1 + x_2}{2}, \frac{y_1 + y_2}{2} \right) ). Here, since both endpoints share the same x-coordinate (0), you only need to average the y-coordinates: ( \frac{0 + 15}{2} = 7.5 ). Thus, the y-coordinate of the midpoint is 7.5.
Which methods could you use to calculate the y-coordinate of the midpoint of a vertical line segment with endpoints at (00)and (015)?
The coordinates of the midpoint are the averages of the coordinates of the end points. So (0, 7.5).
Which methods could you use to calculate the y-coordinate of the midpoint of a vertical line segment with endpoints (00) and (015)?
The coordinates of the midpoint are the averages of the coordinates of the end points. So (0, 7.5).
Which methods could you use to calculate the y-coordinate of the midpoint of a vertical line segment with endpoints at (0 0) and (0 -12)?
To calculate the y-coordinate of the midpoint of a vertical line segment with endpoints at (0, 0) and (0, -12), you can use the midpoint formula, which is ( M_y = \frac{y_1 + y_2}{2} ). Here, ( y_1 = 0 ) and ( y_2 = -12 ), so the calculation becomes ( M_y = \frac{0 + (-12)}{2} = \frac{-12}{2} = -6 ). Thus, the y-coordinate of the midpoint is -6.
Which method could you use to calculate the y-coordinate of the midpoint of a vertical line segment with endpoint at 0 0 and 0 15?
Each coordinate of the midpoint of a straight line segment is the arithmetic mean of the coordinates of the endpoints. So the y-coordinate is (0+15)/2 = 7.5
What methods could you use to calculate the y-coordinate of the midpoint of a vertical line segment with endpoints at (00) and (0-12)?
If you mean endpoints of (0, 0) and (0, -12) then its midpoint is at (0, -6) because (0+0)/2 = 0 and (0-12)/2 = -6
Which methods could you use to calculate they y-coordinate of the midpoint of a vertical line segment at (00) and (015)?
To calculate the y-coordinate of the midpoint of a vertical line segment with endpoints at (0, 0) and (0, 15), you can use the midpoint formula, which states that the midpoint (M) between two points ((x_1, y_1)) and ((x_2, y_2)) is given by (M = \left(\frac{x_1 + x_2}{2}, \frac{y_1 + y_2}{2}\right)). In this case, the x-coordinates are the same (0), so the midpoint's x-coordinate is 0. For the y-coordinates, you calculate (\frac{0 + 15}{2} = 7.5), thus the midpoint is at (0, 7.5).
How could you find the y-coordinate of the midpoint of a vertical line segment with endpoint at (00) and (015)?
If you mean endpoints of (0, 0) and (0, 15) then the midpoint is at (0, 7.5)
What methods could you use to find the y-coordinate of the midpoint of a vertical line segment with endpoints at 0 0 and 0 15?
Some methods you could use to find the y-coordinate of the midpoint of a vertical line segment with endpoints at 0 0 and 0 15 are by: Counting by hand Dividing 15 by 2
Which methods could you use to calculate the coordinate of the midpoint of a vertical line segment with endpoints at (0 0) and (0 15)?
To calculate the midpoint of a vertical line segment with endpoints at (0, 0) and (0, 15), you can use the midpoint formula, which is given by ((x_m, y_m) = \left(\frac{x_1 + x_2}{2}, \frac{y_1 + y_2}{2}\right)). In this case, (x_1) and (x_2) are both 0, while (y_1) is 0 and (y_2) is 15. Thus, the midpoint coordinates are ((0, \frac{0 + 15}{2}) = (0, 7.5)).
Which methods could you use to calculate the coordinate of the midpoint of a vertical line segment with endpoints at (00) and (0-12)?
To calculate the midpoint of a vertical line segment with endpoints at (0, 0) and (0, -12), you can use the midpoint formula, which is given by ( M = \left( \frac{x_1 + x_2}{2}, \frac{y_1 + y_2}{2} \right) ). For your endpoints, this becomes ( M = \left( \frac{0 + 0}{2}, \frac{0 + (-12)}{2} \right) ), resulting in ( M = (0, -6) ). Alternatively, since the x-coordinates are the same, you can simply average the y-coordinates: ( \frac{0 + (-12)}{2} = -6 ), confirming the midpoint is at (0, -6).
Which method could you use to calculate the y-cordinate of the midpoint of a vertical line segment with endpoint (00) and (0-12)?
If you mean endpoints of (0, 0) and (0, -12) then the midpoint is (0, -6)
