In plane geometry there is exactly one straight line through two points. There can be any number of curved lines.
== == Through any two points there is exactly one straight line.
one plane LINE
Yes
It takes exactly 2 distinct points to uniquely define a line, i.e. for any two distinct points, there is a unique line containing them.
Yes and they are the end points
== == Through any two points there is exactly one straight line.
between two point there is exactly one line between three points there is exactly one plane
one plane LINE
There is exactly one line that can pass through two distinct points. This line is uniquely determined by the two points.
Yes
False!
Unique line assumption. There is exactly one line passing through two distinct points.
Yes, it is true that through any three points, if they are not collinear (not all lying on the same straight line), there exists exactly one line that can be drawn through any two of those points. However, if the three points are collinear, they all lie on the same line, meaning that there is still only one line that can be associated with them. In summary, the statement holds true under the condition that the points are not all collinear.
No. A tangent touches the circle at exactly one point. A line that intersects a circle at exactly two points is a secant.
line
It takes exactly 2 distinct points to uniquely define a line, i.e. for any two distinct points, there is a unique line containing them.
No. There is exactly one line (and therefore line segment) through any two points.