infinite.. you can have different sizes of circles crossing at the same point.. so it can literally be an infinite amount
Infinite lines because a circle has infinite lines of symmetry.
one
Euclidean Geometry is based on the premise that through any point there is only one line that can be drawn parallel to another line. It is based on the geometry of the Plane. There are basically two answers to your question: (i) Through any point there are NO lines that can be drawn parallel to a given line (e.g. the geometry on the Earth's surface, where a line is defined as a great circle. (Elliptic Geometry) (ii) Through any point, there is an INFINITE number of lines that can be drawn parallel of a given line. (I think this is referred to as Riemannian Geometry, but someone else needs to advise us on this) Both of these are fascinating topics to study.
Finding the midpoint of a segment Drawing a perpendicular line segment from a given point to a given segment Drawing a perpendicular line segment through a given point on a given segment Drawing a line through a given point parallel to a given line
The circumference of all the five circles should pass through a common point. It will looks like a sunflower.
In Geometry
All circles are plane curves drawn by a point that rotates 360 degrees at a constant distance from a fixed point.
It can be only 1 * * * * * Infinitely many concentric circles can be drawn.
400
True
infinite
Infinite lines because a circle has infinite lines of symmetry.
The question is seriously compromised by poor spelling or grammar.If you meant "... through a given point" ie one point, then the answer is infinitely many.If you meant "... through given points" ie more than one point, then the answer is at most one.So a huge difference between the two possible answers.I hope that will teach you the importance of correct spelling and grammar.
Yes (in a Euclidean plane)..
One.
Infinitely many.
the answer is one