5, one through each vertex, bi-secting the opposite side.
a pentagon has 10 lines of symmetry
A general pentagon may have no symmetries at all. A regular pentagon has five symmetry axes - each one connecting a vertex with the middle of the edge opposite this vertex. A regular pentagon also has rotational symmetry - if you rotate it by any multiple of 72 degrees clockwise or anti-clockwise you get a regular pentagon as well. Please also see the related link below.
In general, a square. A square always has 4 lines of symmetry. A pentagon need not have any. Only a regular pentagon can have 5 lines of symmetry. But if you created pentagons from sides with random lengths then, assuming the pentagons existed, only a tiny fraction would be regular: most pentagons would have no axes of symmetry.
It has 1 line of symmetry
It has 1 line of symmetry or 'mirror image'
A regular pentagon has five axes of symmetry.
It has 5 axes of symmetry
5
5
i think 5
Infinitely many: any line can be an axis. A regular pentagon has six axes of symmetry.
yes
it has six three on one side three on the other* * * * * No it does not.An ordinary pentagon has none. It can have 1 or, if it is a regular pentagon, 5.
I think it has 4 * * * * * Sorry, but you thought wrong. The correct answer is 5.
There are infinitely many axes of symmetry in mathematics.
a rectangle has 2 axes of symmetry
A square has 4 axes of symmetry.