-2
It is simply the difference between their y coordinates.
Horizontal
midpoint: (8, 5)
-- The 'x' coordinate of the midpoint is the average of the 'x'-coordinates of the end-points. -- The 'y' coordinate of the midpoint is the average of the 'y'-coordinates of the end-points.
The distance between (x, y1) and (x, y2) is abs(y1 - y2) or |y1 - y2|.
how do you find distance between points
The distance between two points is Square root of [ (difference in their 'x' coordinates)2 + (difference in their 'y' coordinates)2 ]
The distance between any two points on a number line is the absolute value of the difference of the coordinates.
The possible coordinates of the midpoint depend on the coordinates of A and T and these depend on what these two points are and how they are related.If A = (p,q) and T = (r,s ) then the midpoint of AT has coordinates [(p+r)/2, ((q+s)/2].
It is simply the difference between their y coordinates.
It is simply the difference between their y coordinates.
It is the fact that their coordinates are not the same.
In 2-dimensional space, it is the difference between their y-coordinates, in 3-dimensional space, it is the difference between their z-coordinates.
The slope for a line between two points is (difference of y-coordinates) divided by (difference of x-coordinates). That is, (y2-y1)/(x2-x1). It doesn't matter in what order you take the points.
Yes. Calculate the ratio of the difference in y-coordinates and the difference in x-coordinates between pairs of points. If the ratio is the same, the points are collinear. If not, they are not. The only exception is if all the x-coordinates are he same and the ratio is not defined. In this case the points are also collinear - all on a vertical line.
A two-dimensional surface on which points are plotted and located by their x and y coordinates.
A two-dimensional surface on which points are plotted and located by their x and y coordinates