which statement describes the order of rotational symmetry for an isosceles triangle?\nan isosceles triangle…

which statement describes the order of rotational symmetry for an isosceles triangle?\nan isosceles triangle has an order 0 rotational symmetry because there is no angle at which it can be rotated onto itself.\nan isosceles triangle has an order 1 rotational symmetry because it does not have all congruent angles.\nan isosceles triangle has an order 2 rotational symmetry because it has 1 pair of congruent angles.\nan isosceles triangle has an order 3 rotational symmetry because it has 3 angles.

which statement describes the order of rotational symmetry for an isosceles triangle?\nan isosceles triangle has an order 0 rotational symmetry because there is no angle at which it can be rotated onto itself.\nan isosceles triangle has an order 1 rotational symmetry because it does not have all congruent angles.\nan isosceles triangle has an order 2 rotational symmetry because it has 1 pair of congruent angles.\nan isosceles triangle has an order 3 rotational symmetry because it has 3 angles.

Answer

Brief Explanations:

The order of rotational symmetry of a shape is the number of times it can be rotated around a central point and still look the same. An isosceles triangle is not equilateral (all - angles equal). It only looks the same in its original position after rotation, so it has an order 1 rotational symmetry.

Answer:

An isosceles triangle has an order 1 rotational symmetry because it does not have all congruent angles.