Parallelogram
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A parallelogram is a four-sided plane figure that has two sets of opposite parallel sides. Every parallelogram is a polygon, and more specifically a quadrilateral. Special cases of a parallelogram are the rhombus, in which all four sides are of equal length, the rectangle, in which the two sets of opposing, parallel sides are perpendicular to each other, and the square, in which all four sides are of equal length and the two sets of opposing, parallel sides are perpendicular to each other. In any parallelogram, the diagonals bisect each other, i.e, they cut each other in half.
The parallelogram law distinguishes Hilbert spaces from other Banach spaces.
It is possible to create a tessellation with any parallelogram.
The three-dimensional counterpart of a parallelogram is a parallelepiped.
The area of a parallelogram can be seen as twice the area of a triangle created by one of its diagonals. The area of a parallelogram can be found by using the formula [B\times H=A] (Base multiplied by Height equals area). The area can also be computed as the magnitude of the vector cross product of two of its non-parallel sides.
Proof that diagonals bisect each other
Prove that the diagonals of a parallelogram bisect each other.
(Prove that [E/\overrightarrow=1:1] and [E/\overrightarrow=1:1])
Proof:
[\overrightarrow=k\overrightarrow], k is an element of the real numbers
[\overrightarrow=k(\overrightarrow+\overrightarrow) \Rightarrow \overrightarrow=k(\overrightarrow+\overrightarrow)] since [\overrightarrow=\overrightarrow]
[\overrightarrow=k\overrightarrow+k\overrightarrow]
since E,D,B are collinear, by the division-point theorem,
k + k = 1
2k = 1
k = 0.5
sub k = 0.5 into:
[\overrightarrow=k\overrightarrow]
[\overrightarrow=(0.5)\overrightarrow]
[\overrightarrow / \overrightarrow=0.5] (the ratio of AE to AC is 1:2)
also sub k = 0.5 into:
[\overrightarrow=k\overrightarrow+k\overrightarrow]
[\overrightarrow=0.5\overrightarrow+0.5\overrightarrow]
by the division-point theorem,
[E/\overrightarrow=1:1]
Therefore, the diagonals of a parallelogram bisect each other.
See also
External links
- [Mathworld: Parallelogram]
- [Area of Parallelogram] at cut-the-knot
- [Equilateral Triangles On Sides of a Parallelogram] at cut-the-knot
- [Varignon and Wittenbauer Parallelograms] by Antonio Gutierrez from "Geometry Step by Step from the Land of the Incas"
- [Van Aubel's theorem] Quadrilateral with four squares by Antonio Gutierrez from "Geometry Step by Step from the Land of the Incas"
- [Parallelogram Quiz]
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