No. Three points do. Two points determine a line.
Two. Two points determine a line. Three points determine a plane.
A series of 3 points will always determine a plane unless 2 or all 3 points are identical points (they have the same coordinates).If the idea is to have the three points determine oneplane, a unique plane, then three points will do that as long as none of them have the same spacial coordinates (have identical locations) or as long as the three points do not lie on a single line.If a straight line can be drawn through all three points, they will not form one unique plane either.
Three points determine exactly one plane.That means that if you bring me a plane, then some or all of my three points may ormay not lie in your plane. But if you bring me three points, then I can always draw aplane in which all of your points lie, and I can also guarantee that it's the only one.By the way ... three points also determine exactly one circle.
Any three points will determine a plane, provided they are not collinear. If you pick any two points, you can draw a line to connect them. An infinite number of planes can be drawn that include the line. But if you pick a third point that does not lie on the line. There will be exactly one plane that will contain the line and that point you added last. Only oneplane can contain the line, which was determined by the first two points, and the last point.
The pelvis shape, skull features, and presence of certain bone characteristics (such as size and robustness) are used to determine gender in forensic science. These points are analyzed because they tend to show differences between males and females due to biological and evolutionary factors. Scientists use these skeletal features to make an informed assessment of the individual's gender.
Three points can determine a plane but not 3-d space.
No. Three points do. Two points determine a line.
Any 3 points determine a plane.
False. Three collinear points determine a line while three non-collinear points determine a plane ( A Triangle)
Any 3 points
A plane
Three non-collinear points do not determine a unique spherical triangle.
Two. Two points determine a line. Three points determine a plane.
Any three points which do not form a line.
A series of 3 points will always determine a plane unless 2 or all 3 points are identical points (they have the same coordinates).If the idea is to have the three points determine oneplane, a unique plane, then three points will do that as long as none of them have the same spacial coordinates (have identical locations) or as long as the three points do not lie on a single line.If a straight line can be drawn through all three points, they will not form one unique plane either.
No, they need not.