ordered pair
No. Let's assume the plane has coordinates x and y; the vector outside the plane has a component for the z-coordinate. In that case, another vector (or several) must also have a component in the z-coordinate, to compensate.No. Let's assume the plane has coordinates x and y; the vector outside the plane has a component for the z-coordinate. In that case, another vector (or several) must also have a component in the z-coordinate, to compensate.No. Let's assume the plane has coordinates x and y; the vector outside the plane has a component for the z-coordinate. In that case, another vector (or several) must also have a component in the z-coordinate, to compensate.No. Let's assume the plane has coordinates x and y; the vector outside the plane has a component for the z-coordinate. In that case, another vector (or several) must also have a component in the z-coordinate, to compensate.
Jaxyn and ollie
They define one plane. A line is defined by two points, and it takes three points to define a plane, so two points on the line, and one more point not on the line equals one plane.
A point in geometry is defined as any exact location on a plane. It has no size, even if it is represented on a graph by a dot. A point has no measurement - it is just one specific place, and it is usually named with a capital letter. So 5 examples on any graph could include A, B, C, D, and E as points.
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No. Let's assume the plane has coordinates x and y; the vector outside the plane has a component for the z-coordinate. In that case, another vector (or several) must also have a component in the z-coordinate, to compensate.No. Let's assume the plane has coordinates x and y; the vector outside the plane has a component for the z-coordinate. In that case, another vector (or several) must also have a component in the z-coordinate, to compensate.No. Let's assume the plane has coordinates x and y; the vector outside the plane has a component for the z-coordinate. In that case, another vector (or several) must also have a component in the z-coordinate, to compensate.No. Let's assume the plane has coordinates x and y; the vector outside the plane has a component for the z-coordinate. In that case, another vector (or several) must also have a component in the z-coordinate, to compensate.
Scale and coordinates are what give points, lines, and polygons location as it relates to the location on the Earth.
These point are usually called loci as they are defined by a give set of rules.
Not a coordinate but a pair (or larger set) of coordinates.These are ordered sets of numbers that give the distance of the point, from the origin, along each of the axes in multidimensional space.
The idea is to calculate the average of the x-coordinates (this will be the x-coordinate of the answer), and the average of the y-coordinates (this will be the y-coordinate of the answer).
To work out a coordinate when there are no numbers on either the X or Y axis begin by drawing a vertical line down from the point of interest and have it cross the horizontal axis. Where the two meet label it as X and then use a ruler to measure from the 0 point to the X. This will give you the X axis coordinate. Repeat the process to find the Y coordinate but draw a horizontal line from the point of interest instead of a vertical line.
coordinates
Jaxyn and ollie
I cannot see the graph. I'm assuming the point is on a coordinate graph. Without seeing the graph, the x coordinate cannot be found but I can give a little advice. When reading coordinates, the x coordinate (or x-ordinate to be exact) is the first number in the ordered pair (x,y). To remember this, think alphabetically, x comes before y. On a coordinate plane, to find the x-ordinate you need to count how far left/right the point is from y axis (up /down axis). Given graph paper makes this easier. If you do not have graph paper, draw a line straight up and down from the point until your line reaches the x axis (left/right axis) and then read the number where your line intersects the x-axis, this is your x ordinate. If your point is to the right of the y-axis, the x ordinate would be positive; if to the left of the y-axis, your x-ordinate would be negative; if your point is on the y axis; your x-ordinate is 0.
They define one plane. A line is defined by two points, and it takes three points to define a plane, so two points on the line, and one more point not on the line equals one plane.
A point in geometry is defined as any exact location on a plane. It has no size, even if it is represented on a graph by a dot. A point has no measurement - it is just one specific place, and it is usually named with a capital letter. So 5 examples on any graph could include A, B, C, D, and E as points.
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