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Explore Activity 3: play a Kite!



Explore Activity 3: play a Kite! ​-example-1
User Teun Lassche
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1 Answer

14 votes
14 votes


\bold{\huge{\underline{ Solution }}}

Given :-

  • Quadrilateral PLAY is a kite.
  • The length of PA = 12 cm and LY = 6 cm

Part 1 :-

  • The area of Quadrilateral PLAY is 36 cm²

Part 2 :-

Here, we have,

  • The length PA = 12 cm and LY = 6 cm
  • Here, PA and LY are the diagonal of quadrilateral PLAY

We know that,

Area of kite


\bold{ = }{\bold{(1)/(2)}}{\bold{ {*} d1 {*} d2}}

Subsitute the required values,


\sf{ = }{\sf{(1)/(2)}}{\sf{ {*}12 {*} 6}}


\sf{ = }{\sf{(1)/(2)}}{\sf{ {*}72 }}


\bold{ = 36 cm^(2)}

Hence, The area of quadrilateral PLAY is 36 cm²

Part 3 :-

Pythagoras theorem justifies our answers because the diagonals of rhombus are bisects each other at 90°

According to this theorem

  • The sum of squares of the base and perpendicular height of the triangle are equal to the square of hypotenuse.

That is ,


\bold{\red{ (Hypotenuse)^(2)= (Base)^(2)+ (perpendicular )^(2)}}

By using this theorem in Quadrilateral PLAY

  • We can find the length of diagonals of kite and it's area.

[ Note :- Please refer the attachment for the correct diagram ]

Explore Activity 3: play a Kite! ​-example-1
User Nclord
by
2.9k points
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