(3,-2)
A point has coordinates; an angle does not.
Coordinates are what tells you where a "point" is on a coordinate plane. For instance, Point A may be at (4, 6) when Point B is at (-2, 5)
Well this is my thought depending on where the point of dilation is the coordinates of the give plane is determined. The point of dilation not only is main factor that positions the coordinates, but the scale factor has a huge impact on the placement of the coordinates.
Example: if you have a point with the coordinates (2,4), a reflection over the y-axis will result in the point with coordinates (-2,4).
the distance from the origin
-a, b
Presumably they are the correct coordinates for the given problem of which no example has been given
It is the midpoint of the straight line joining E and A.
The slope of a line and the coordinates of a point on the line.The slope of a line and the coordinates of a point on the line.The slope of a line and the coordinates of a point on the line.The slope of a line and the coordinates of a point on the line.
The coordinates of a point are in reference to the origin, the point with coordinates (0,0). The existence (or otherwise) of an angle are irrelevant.
Point A has coordinates (x,y). Point B (Point A rotated 270°) has coordinates (y,-x). Point C (horizontal image of Point B) has coordinates (-y,-x).
A point has coordinates; an angle does not.
It's a set of geographic coordinates, describing a point on the surface of the earth. The point described by these coordinates is in northeastern China, about 21 miles west-northwest of the center of Beijing.
oh my goodness not even dr.sheldon cooper can answer that
Converse: If the coordinates are positive, then the point is in the first quadrant
The point whose Cartesian coordinates are (2, 0) has the polar coordinates R = 2, Θ = 0 .
Coordinates are what tells you where a "point" is on a coordinate plane. For instance, Point A may be at (4, 6) when Point B is at (-2, 5)