Q: Does the capital letter N have any lines of symmetry?

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None, since the letter "e" does not have any symmetry.

A decagon need not have any lines of symmetry. It can also have 1 or 10 lines of symmetry.

A square by definition has lines of symmetry. Therefore a square cannot be drawn without any lines of symmetry.

The relationship is one of identity. The number of lines of symmetry for any object, are always identically equal to the number of lines of symmetry for that same object.The relationship is one of identity. The number of lines of symmetry for any object, are always identically equal to the number of lines of symmetry for that same object.The relationship is one of identity. The number of lines of symmetry for any object, are always identically equal to the number of lines of symmetry for that same object.The relationship is one of identity. The number of lines of symmetry for any object, are always identically equal to the number of lines of symmetry for that same object.

No.

Related questions

no it does not have

Depending on the font, they are N, S and Z.

None, since the letter "e" does not have any symmetry.

No but it has perpendicular lines that meet at right angles.

A decagon need not have any lines of symmetry. It can also have 1 or 10 lines of symmetry.

A rectangle has 2 lines of symmetry whereas a square has 4 lines of symmetry

Yes, there are infinite lines of symmetry in a circle.

Equilateral Triangles (3 lines of symmetry)Rectangles (at least 2 lines of symmetry)Squares (4 lines of symmetry)Rhombuses (at least 2 lines of symmetry)Any regular polygon (at least 5 lines of symmetry)

Most parallelograms do not have any lines of symmetry. The only parallelograms that can have lines of symmetry are squares, rectangles, and rhombuses.

12 * * * * * A dodecagon need not have any lines of symmetry. It can have 1, 2, 4 or 12 lines of symmetry.

A square by definition has lines of symmetry. Therefore a square cannot be drawn without any lines of symmetry.

The relationship is one of identity. The number of lines of symmetry for any object, are always identically equal to the number of lines of symmetry for that same object.The relationship is one of identity. The number of lines of symmetry for any object, are always identically equal to the number of lines of symmetry for that same object.The relationship is one of identity. The number of lines of symmetry for any object, are always identically equal to the number of lines of symmetry for that same object.The relationship is one of identity. The number of lines of symmetry for any object, are always identically equal to the number of lines of symmetry for that same object.