6
4
Using the distance formula from (3, 1) to (7, 1) is 4 units
Coordinates: R is (-6, 2) and T is (1, 2) Length of side RT is 7 units using the distance formula
Select a set of value of x in the range over which you wish to draw the graph. For each point, x, calculate x2+1 and then plot the point (x, x2+1) on a coordinate plane. Join these points with a smooth curve.
Using the distance formula the length of the line segment from (10, -3) to (1, -3) is 9 units which means that the line segment is partitioned by 2 units and 7 units. To find the coordinates of point R plot the above information on the Cartesian plane.
If you mean points of: (2, 1) and (14, 6) then the distance is 13
That depends on the direction of the point in reference to the original coordinate. If the new point is 5 units to the right of (1,3), then the point is (6,3). If the point is 5 units left of (1,3), then the point is (-4,3). And so on.
Point (0, 1) is a single point and it would be in the coordinate (not cordinate) plane. And I have no idea what "you" is doing at the end of the question!
Using the distance formula from (3, 1) to (7, 1) is 4 units
If you mean (-1, -0.5) then it is located in the 3rd quadrant on the coordinated plane
To plot the points (1, 2), (2, 1), and (-2, 5) on a graph, you would start by drawing a horizontal x-axis and a vertical y-axis to create a coordinate plane. The x-axis represents the values of the first coordinate in each pair, and the y-axis represents the values of the second coordinate. To plot the point (1, 2), you would start at the origin (0, 0) and move 1 unit to the right along the x-axis and 2 units up along the y-axis. The point (2, 1) would be located 2 units to the right and 1 unit up from the origin, and the point (-2, 5) would be located 2 units to the left and 5 units up.
If you mean points of (-3, 1) and (-7, 1) then using the distance formula it is 10 units
It is the square root of (3-8)2+(-5-7)2 = 13
Point 1 = (x1, y1)Point2 = (x2, y2)d = ((x2 -x1)2 + ( y2 -x2 )2 )0.5
There are infinitely many possible correspondences between points in the coordinate plane. Some examples: Every point with coordinates (x+1, y) is one unit to the right of the point at (x, y). Every point with coordinates (x, y+1) is one unit up from the point at (x, y). Every point with coordinates (x, -y) is the reflection, in the y-axis of the point at (x, y).
Here's an example: In the coordinate plane, the point is translated to the point . Under the same translation, the points and are translated to and , respectively. What are the coordinates of and ? Any translation sends a point to a point . For the point in the problem, we have the following. So we have . Solving for and , we get and . So the translation is unit to the right and units up. See Figure 1. We can now find and . They come from the same translation: unit to the right and units up. The three points and their translations are shown in Figure 2.
The vertex coordinate point of the vertex of the parabola y = 24-6x-3x^2 when plotted on the Cartesian plane is at (-1, 27) which can also be found by completing the square.
If you mean points of (5, 5) and (1, 5) then the distance is 4