They satisfy the equation x + y = 0
X-Y Coordinates Origin Quadrants Points
The negative y coordinates and positive x coordinates lie in the IV quadrant on the Cartesian plane
y=x
To intersect (as a transitive verb) is to divide by crossing over. To intersect (as an intransitive verb) is to share common points. Bisect is similar to intersect, but the difference is that bisecting divides into two equal parts.
The equation does not have and y variable in it: it is of the form x = c. Alternatively, the x coordinates of both points are the same and the y coordinates are not.
The coordinates of all points in the coordinate plane consist of ordered pairs of numbers.
X-Y Coordinates Origin Quadrants Points
You can divide an area into any number of smaller areas. The special relevance of "quadrants" is that it distinguishes points on a plane by the sign of the coordinates. For example, points in the first quadrant have both the x-coordinate and the y-coordinate positive.
X-Y Coordinates Origin Quadrants Points The proper answer is a QUADRANT. The others are objects that may be found on a coordinate plane. Points are listed but not lines (why not?).
The negative y coordinates and positive x coordinates lie in the IV quadrant on the Cartesian plane
-- 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.
y=x
To intersect (as a transitive verb) is to divide by crossing over. To intersect (as an intransitive verb) is to share common points. Bisect is similar to intersect, but the difference is that bisecting divides into two equal parts.
In what quadrants are the solution points for y < -3 graphed in the rectangular coordinate system?
The equation does not have and y variable in it: it is of the form x = c. Alternatively, the x coordinates of both points are the same and the y coordinates are not.
Intersection or coordinates
By giving their coordinates.