if a quadrilateral has exactly 2 lines of symmetry, and both are angle bisectors, then which statement would…

if a quadrilateral has exactly 2 lines of symmetry, and both are angle bisectors, then which statement would be true? the figure must be an isosceles trapezoid because it has 2 congruent base angles. the figure must be a rectangle because all rectangles have exactly 2 lines of symmetry. the figure could be a rhombus because the 2 lines of symmetry bisect the angles. the figure could be a square because the diagonals of a square bisect the right angles.
Answer
Explanation:
Step1: Analyze isosceles trapezoid
An isosceles trapezoid has 1 line of symmetry, not 2. So the first - option is wrong.
Step2: Analyze rectangle
A rectangle has 2 lines of symmetry, but its lines of symmetry are not angle - bisectors (except for a square which is a special rectangle). So the second option is wrong.
Step3: Analyze rhombus
A rhombus has 2 lines of symmetry which are its diagonals, and the diagonals of a rhombus bisect the angles. This satisfies the condition of having 2 lines of symmetry that are angle - bisectors.
Step4: Analyze square
A square has 4 lines of symmetry, not 2. So the fourth option is wrong.
Answer:
The figure could be a rhombus because the 2 lines of symmetry bisect the angles.