Maybe its the shape of cylinder which has 2 congruent sides and 1 rounded body.
A square:) :) :)
A square.
That is a mathematical impossibility. At least 2 angles have to be congruent in order for the shape to have 4 sides.
Congruent sides are two (or more) sides of a shape that have the same measure.
obtuse
A congruent triangle is a triangle that has the same size and shape as another triangle. This means that all corresponding sides and angles of the triangles are equal. Congruent triangles can be identified in geometric figures by comparing the lengths of their sides and the measures of their angles to see if they match up exactly.
Kite is a geometry term for a quadrilateral shape. The shape has two pairs of adjacent sides that are congruent. The diagonals are perpendicular.
A square.
A square:) :) :)
That is a mathematical impossibility. At least 2 angles have to be congruent in order for the shape to have 4 sides.
Angles and sides are congruent when they are identical. A shape with four identical sides and angles is a square.
Congruent sides are two (or more) sides of a shape that have the same measure.
A geometric shape that has 11 sides is called a "hendecagon" or "undecagon." Both terms are acceptable.
This shape would be a square.
A trapezium with all its sides congruent is an impossible shape.
the kite that fly in the air came first but the geometric one is a kite is a quadrilateral with two pairs of congruent adjacent sides and no opposite sides congruent.
This is a parallelogram. The first requirement is 2 pairs of congruent sides where the congruent sides are not adjacent. This is like a rectangle (excluding a square) that has two pairs of congruent sides where the congruent sides are not adjacent. But the angles are not all congruent (as set in the question) which pushes the shape into the "next less regular" shape, the parallelogram. The angles will not all be congruent, but it will have 2 pairs of congruent angles. There is no way to avoid the 2 pairs of congruent angles because of the requirement that the shape must have 2 pairs of congruent sides (the first requirement).