A set of 3 points will always be coplanar, but will only sometimes be collinear. Collinear points are always coplanar as well.
No. In order to be coplanar, points have to be in the line.
No. A trinagle does not require four points, three are sufficient. And any three points, if they are not colinear, must be coplanar.
space
not necassarily
all of them are collinear they lie in the same plane
Three points are, but not four.
No, they always are From Wikipedia.org, "The World's Encyclopedia" when I searched coplanar In geometry, a set of points in space is coplanar if the points all lie in the same geometric plane. For example, three distinct points are always coplanar; but four points in space are usually not coplanar. Since 3 points are always coplanar. A point and line are always coplanar
lie on the same plane and are collinear
No but they are always coplanar.
Yes. Any two points are always coplanar.
A set of 3 points will always be coplanar, but will only sometimes be collinear. Collinear points are always coplanar as well.
No. For any three points it is always possible to find a plane on which they all lie. A fourth point is most unlikely to be coplanar with the first three unless it is deliberately placed to be so.
No. If the four points are coplanar, they determine only one plane!
They need not be. The four vertices of a quadrilateral are coplanar but NOT collinear. On the other hand, any line (in Eucledian geometry) has an infinite number of points on it - all of which are coplanar.
No. For example, consider the vertices of a tetrahedron (triangle-based pyramid).
No. In order to be coplanar, points have to be in the line.