If two points are in a plane, then the line that contains the points is in that plane
coplaner points- are points lying on his the same plane,.. solution: plane R contains XY XY contains X and Y...
a line has to have at least 2 points.a plane has to have at least 3 points.______________It takes two points to define a unique line in Euclidean space. But every line and every line segment contains infinitely many points. The same is true for planes in Euclidean space. You need at least 3 points to define a unique plane, but every plane containes infinitely many points and infinitely many lines or line segments.
It's a plane. I think
Coplanar.
Yes- planes contain infinitely many points and every pair of points in plane determine a line in that plane, so every plane contains infinitely many lines.
If two points are in a plane, then the line that contains the points is in that plane
coplaner points- are points lying on his the same plane,.. solution: plane R contains XY XY contains X and Y...
a line has to have at least 2 points.a plane has to have at least 3 points.______________It takes two points to define a unique line in Euclidean space. But every line and every line segment contains infinitely many points. The same is true for planes in Euclidean space. You need at least 3 points to define a unique plane, but every plane containes infinitely many points and infinitely many lines or line segments.
It's a plane. I think
Coplanar.
A line contains at least 2 points.
X and Y
If you are given a plane, you can always find and number of points that are not in that plane but, given anythree points there is always at least one plane that goes through all three.
yes, three points in the least number of points that can be used to define a plane. if you used two points you would only have a line, and one point is a point
At least 3
No. The tiniest piece of a plane contains an infinite number of points. But if you give us just three points, then we know exactly what plane you're talking about, and it can't be any other plane.