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Kite tool is a really great tool and you can use this tool totally free. It’s a web-based tool that will help you a lot. But before using this tool you should know about this so that’s why we have given fully detailed information in this article.

Kite Area Calculator is an online tool for geometry to calculate the area & perimeter of the kite from the given values of diagonals D1 & D2.

A kite may be a quadrilateral shape with two pairs of adjacent (touching), congruent (equal-length) sides. These are the parts of kites.

•           A two-dimensional figure

•           A closed shape

•           A polygon

Kites Geometry Definition

Sometimes a kite is often a rhombus (four congruent sides), a dart, or maybe a square (four congruent sides and 4 congruent interior angles).

Some kites are rhombi, darts, and squares. Not every rhombus or square maybe a kite. All darts are kites.

Kites Geometry Types

Kites are often convex or concave. A dart may be a concave kite. Meaning two of its sides move inward, toward the within of the form, and one among the four interior angles is bigger than 180°. A dart is additionally called a chevron or arrowhead.

Kite Dart Geometry

How to Construct a Kite in Geometry

You can make a kite. Find four uncooked spaghetti strands. Cut or break two spaghetti strands to be adequate to one another, but shorter than the opposite two strands.

Touch two endpoints of the short strands together. Touch two endpoints of the longer strands together. Now carefully bring the remaining four endpoints together so an endpoint of every short piece touches an endpoint of every long piece. You’ve got a kite!

How to Draw a Kite in Geometry

You can also draw a kite. Use a protractor, ruler, and pencil. Draw a line segment (call it KI) and, from the endpoint I, draw another line segment with an equivalent length as KI. That new segment is going to be IT. The angle those two line segments make (∠I) are often any angle except 180° (a straight angle).

Draw a dashed line to attach endpoints K and T. this is often the diagonal that, eventually, will probably be inside the kite. Now use your protractor. Line it up along diagonal KT so the 90° mark is at ∠I. Mark the spot on diagonal KT where the perpendicular touches; which will be the center of KT.

Kite Geometry

It should be drawn that perpendicular dashed line passing through it ∠I and therefore the center of diagonal KT. Make that line as long as you wish. If you finish the road closer to ∠I than diagonal KT, you'll get a dart. If you finish the printing operation further faraway from ∠I than diagonal KT, you'll make a convex kite.

Connect the endpoint of the perpendicular line with the endpoint T. Label it points E. Connect point E with point K, creating line segment EK. Notice that line segments (or sides) TE and EK are equal. Notice that sides KI and IT are equal.

You probably drew your kite so sides KI and EK aren't equal. That also means IT and TE aren't equal. You’ll have drawn all of them equally, making a rhombus (or a square, if the inside angles are right angles).

Properties of Kites are as follows;

The kite's sides, angles, and diagonals all have to identify properties.

Kite Sides

To be a kite, a quadrilateral must have two pairs of sides that are adequate to each other and touching. This makes two pairs of adjacent, congruent sides.

Your kite could have four congruent sides. Your quadrilateral would be a kite (two pairs of adjacent, congruent sides) and a rhombus (four congruent sides).

Some (but not all) kites are rhombi. If your kite/rhombus has four equal interior angles, you furthermore may have a square.

Kite Angles

Where two unequal-length sides meet during a kite, the inside angle they create will always be adequate to its opposite angle. Check out the kite you drew.

∠K = ∠T and ∠I = ∠E.

It is possible to possess all four interior angles equal, making a kite that's also a square.

Kite Diagonals

The two diagonals of our kite, KT, and IE, intersect at a right angle. In every kite, the diagonals intersect at 90°. Sometimes one among those diagonals might be outside the shape; then you've got a dart. That doesn't matter; the intersection of diagonals of a kite is usually a right angle.

A second identifying property of the diagonals of kites is that one among the diagonals bisects, or halves, the opposite diagonal. They might both bisect one another, making a square, or only the longer one could bisect the shorter one.

How to use this tool kites calculator?

To use this tool kite’s calculator you don’t have to do any hard work. You simply have to search on Google taskvio.com and then you will get this tool in the math section.

As you can see on your screen you have two boxes where you can enter your value and then you will be able to calculate.

So enter the value in the box and then simply click on the calculate button so that you give to get the answer. You can also bookmark this tool for future uses.

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