A Proof of The Trapezoid Angle Theorem

A trapezoid is a quadrilateral whose two sides are parallel. In the figure below, ABCD is a trapezoid and AB is parallel to CD. In this post, we are going to prove that in a trapezoid, the consecutive angles between a pair of parallel sides are complementary. That is, we are going to prove in the figure above that m \angle A = m \angle D = 180 degrees and m \angle B + m \angle C = 180.

trapezoid angle theorem

The Trapezoid Angle Theorem.

In a trapezoid, the consecutive angles between a pair of parallel sides are complementary.  Continue reading…

 

The Proof of the Kite Symmetry Theorem

A kite is a quadrilateral with two distinct pairs of congruent sides. The common vertices of its congruent sides are called its ends. In quadrilateral ABCD below, the distinct pairs of congruent sides are \overline{AB} & \overline{BC} and \overline{AD} & \overline{CD}. The ends are B and D.

Exercise: Locate the ends and the pairs of the distinct pairs of the remaining quadrilaterals.

kite reflection theorem 2

In this post, we are going to prove the Kite Symmetry Theorem. The theorem states that the line containing the ends of a kite is a symmetry line for the kite. In proving this theorem, we are going to use the Figure Reflection Theorem which is stated as follows. Continue reading…

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