I think that you draw a square from that line, and find the area of that square.
the coordinate plane is a map of points
-- Square the difference between their 'x'-values. -- Square the difference between their 'y'-values. -- Add the two squares. -- Take the square-root of the sum. The result is the distance between the points.
the distance formula for coordinates is : d=square root of ( 2nd x coordinate minus 1st x coordinate)squared plus(2nd y coordinate minus 1st y coordinate) squared sorry if it's a little confusing
All points whose y-coordinate is twice its x-coordinate.
I think that you draw a square from that line, and find the area of that square.
If the reference points are not correct, the location of any coordinate will be incorrect.
the coordinate plane is a map of points
-- Square the difference between their 'x'-values. -- Square the difference between their 'y'-values. -- Add the two squares. -- Take the square-root of the sum. The result is the distance between the points.
When the data on the graph is continuous,it does make sense to connect the points on the graph of 2 related variables.
the distance formula for coordinates is : d=square root of ( 2nd x coordinate minus 1st x coordinate)squared plus(2nd y coordinate minus 1st y coordinate) squared sorry if it's a little confusing
Y-axis is the set of all points with x coordinate zero.
All points whose y-coordinate is twice its x-coordinate.
If you mean points of (5, 7) and (-3, 4) then the distance is the square root of 73 or about 8.544 rounded to three decimal places
It describes points on a plane.
Y-axis is the set of all points with x coordinate zero.
Coordinate Plane