The shape you are describing is a parallelogram. In a parallelogram, the opposite sides are parallel and have equal lengths. Examples of parallelograms include rectangles, rhombuses, and squares.
Two parallel lines are sides the same distance apart.
True. When you fold the paper so that point P lies on the fold line and the two sides of line L match up, the crease formed will be parallel to line L. This is because the fold bisects the angle formed by the two sides of line L, creating two congruent angles, which in turn makes the crease line parallel to line L.
A parallelogram is a quadrilateral with opposite sides that are parallel and equal in length, and opposite angles that are equal. Two ways to describe a parallelogram could be as a shape with opposite sides that are both parallel and equal in length, or as a shape with opposite angles that are equal.
A Diamond is an elementary term for "Rhombus". It has 4 equal sides. A Kite has two pairs of equal sides that are adjacent to each other. kite can fly diamond can't diamonds are shiny kites are not
No, a kite is not convex. A kite is a quadrilateral with two pairs of adjacent sides of equal length and one pair of opposite angles that are equal.
2There are two parallel sides....A rhombus has two pairs of opposite parallel sides.There are two parallel sides....A rhombus has two pairs of opposite parallel sides.
A square has two pairs of parallel sides.It has two pairs of parallel sides.
A parallelogram has two pairs of parallel sides.
Yes, a square has two pairs of parallel sides.
The quadrilateral with two pairs of parallel sides
It has 2 pairs of parallel sides
Yes, a rhombus has two pairs of parallel sides.
An isosceles triangle. It has two pairs of equal sides, which are also not parallel.
A square or a rhombus has two pairs of parallel sides and all sides are equivalent.
A quadrangle (or quadrilateral) that has two pairs of parallel sides is called a parallelogram.
A parallelogram has two pairs of opposite parallel sides
Two pairs of opposite sides are parallel in a parallelogram