Three
there are 6 lines can pass through 4 noncollinear points.
If you are talking about straight lines, the answer is NONE, because that is what noncollinear means. If curves are allowed, then the answer is infinitely many.
Three noncollinear points A, B, and C determine exactly three lines. Each pair of points can be connected to form a line: line AB between points A and B, line AC between points A and C, and line BC between points B and C. Thus, the total number of lines determined by points A, B, and C is three.
only 1 lines can contain 3 collinear points. Maybe you mean coplanar?
From 8 non-collinear points, any two points can be connected to form a straight line. The number of lines that can be formed is given by the combination formula ( \binom{n}{2} ), where ( n ) is the number of points. For 8 points, this is calculated as ( \binom{8}{2} = \frac{8 \times 7}{2} = 28 ). Therefore, 28 straight lines can be formed from 8 non-collinear points.
there are 6 lines can pass through 4 noncollinear points.
If you are talking about straight lines, the answer is NONE, because that is what noncollinear means. If curves are allowed, then the answer is infinitely many.
Three noncollinear points A, B, and C determine exactly three lines. Each pair of points can be connected to form a line: line AB between points A and B, line AC between points A and C, and line BC between points B and C. Thus, the total number of lines determined by points A, B, and C is three.
To connect seven noncollinear points, draw six line segments connecting each point to every other point. This will create a network of lines that connect all seven points without crossing or overlapping.
Lines are two connected points with length but no width. When the end points of lines are all shared by other lines a shape is formed. This shape is known as a polygon.
only 1 lines can contain 3 collinear points. Maybe you mean coplanar?
From 8 non-collinear points, any two points can be connected to form a straight line. The number of lines that can be formed is given by the combination formula ( \binom{n}{2} ), where ( n ) is the number of points. For 8 points, this is calculated as ( \binom{8}{2} = \frac{8 \times 7}{2} = 28 ). Therefore, 28 straight lines can be formed from 8 non-collinear points.
coordinate plane
no
Not necessarily. Points may lie in different planes.
Non-coplanar lines refer to points operating or showing in different planes. None of the points are in the same plane.
There are several intersected lines.