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Difference between revisions of "Trapezoid"
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A '''trapezoid''' is a geometric figure that lies in a plane. It is also a type of [[quadrilateral]].
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A '''trapezoid''' is a cool and pretty geometric figure that lies in a plane. It is also a type of [[quadrilateral]].
  
 
==Definition==
 
==Definition==
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==Related Formulas==
 
==Related Formulas==
 
If <math>A</math> denotes the area of a trapezoid, <math>b_1,b_2</math> are the two bases, and the perpendicular height is <math>h</math>, we get
 
If <math>A</math> denotes the area of a trapezoid, <math>b_1,b_2</math> are the two bases, and the perpendicular height is <math>h</math>, we get
<cmath>A=\dfrac{h}{2}(b_1+b_2)</cmath>
+
<math>A=\dfrac{h}{2}(b_1+b_2)</math>.
  
 
==See Also==
 
==See Also==

Latest revision as of 10:54, 2 January 2024

A trapezoid is a cool and pretty geometric figure that lies in a plane. It is also a type of quadrilateral.

Definition

Trapezoids are characterized by having one pair of parallel sides. Notice that under this definition, every parallelogram is also a trapezoid. (Careful: some authors insist that a trapezoid must have exactly one pair of parallel sides.)

Terminology

The two parallel sides of the trapezoid are referred to as the bases of the trapezoid; the other two sides are called the legs. If the two legs of a trapezoid have equal length, we say it is an isosceles trapezoid. A trapezoid is cyclic if and only if it is isosceles.

The median of a trapezoid is defined as the line connecting the midpoints of the two legs. Its length is the arithmetic mean of that of the two bases $\dfrac{b_1+b_2}{2}$. It is also parallel to the two bases.

Given any triangle, a trapezoid can be formed by cutting the triangle with a cut parallel to one of the sides. Similarly, given a trapezoid that is not a parallelogram, one can reconstruct the triangle from which it was cut by extending the legs until they meet.

Related Formulas

If $A$ denotes the area of a trapezoid, $b_1,b_2$ are the two bases, and the perpendicular height is $h$, we get $A=\dfrac{h}{2}(b_1+b_2)$.

See Also

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