No because you can cut from diffetent angles That would make the side noncongruent
The diagonals of an isosceles trapezoid are equal in lengths but are not perpendicular to each other at right angles.
a rectangle yo mama
what is the congruent diagonals each of which divides the figure into two congruent isosceles right triangles
4 right angles, sides congruent, diagonals congruent
It can also be a kite. That has two congruent pairs of sides but unlike a parallelogram they are adjacent, not opposite. A parallelogram with congruent diagonals is a rectangle.
The diagonals of an isosceles trapezoid are equal in lengths but are not perpendicular to each other at right angles.
A trapezoid Trapezoid - 2 congruent diagonals that do not bisect each other. No right angles and has 1 pair of opposite parallel sides.
a rectangle yo mama
what is the congruent diagonals each of which divides the figure into two congruent isosceles right triangles
No. If the diagonals of a parallelogram are congruent then it must be a rectangle (or square).
The quadrilateral that must have diagonals that are congruent and perpendicular is the square. This is because its diagonals form a right angle at its center.
4 right angles, sides congruent, diagonals congruent
A right trapezoid can have no congruent sides and two right angles.
rectangle
Yes. You can show this by SAS of two right triangles. Consider rectangle ABCD. AD and BC are the same length and AC and BD are the same length because opposite sides are congruent. The angles ADC and BCD are congruent since it is a rectangle and the angles are right angles. So the triangles ADC and BCD are congruent and their hypotenuses (the diagonals of the rectangles) are congruent.
It can also be a kite. That has two congruent pairs of sides but unlike a parallelogram they are adjacent, not opposite. A parallelogram with congruent diagonals is a rectangle.
An isosceles trapezoid can be subdivided into 4 right angle triangles.