Properties of Rectangles
Key Concepts
- Identify a rectangle.
- Explain the conditions required for a parallelogram to be a rectangle.
Rectangle
A parallelogram in which each pair of adjacent sides is perpendicular is called a rectangle.
Theorem
If the diagonals of a parallelogram are congruent, then the parallelogram is a rectangle.
Given: AC=BD
To prove: ABCD is a rectangle.
Proof:
Let the sides of the radio be AB, BC, CD and AD
Here,
AB ∥ CD and AD∥BC
Since the opposite sides of the radio are parallel, so, it is in the shape of a parallelogram.
Now, in △ABC and △DCB,
AB=CD [Opposite sides of a parallelogram]
BC=BC [Reflexive property]
AC=BD [Given]
So, △ABC≅ △DCB by Side-Side-Side congruence criterion.
Then, ∠ABC=∠DCB∠ABC=∠DCB [Congruent parts of congruent triangles]
We know that consecutive angles of a parallelogram are supplementary.
So,
∠ABC+∠DCB=180°
∠ABC+∠ABC=180°
2 ∠ABC=180°
∠ABC=90°
Therefore,
∠DCB=90°
We know that the opposite angles of a parallelogram are equal.
So, in parallelogram
ABCD, ∠A=∠C=90° and ∠B=∠D=90°∠B=∠D=90°
A parallelogram who’s all the angles measure 90° is a rectangle.
Theorem
If a parallelogram is a rectangle, then its diagonals are congruent.
Given:
∠PQR=∠QRS=∠RSP=∠SPQ=90°
To prove: PR=QS
Proof: Let PQRS be a rectangle.
In △QPS and △RSP
QP=RS [Opposite sides of a rectangle are equal]
PS=PS [Reflexive property]
∠QPS=∠RSP [Right angles]
So, △QPS≅ △RSP [Side-Angle-Side congruence criterion]
Then PR=QS [Congruent parts of congruent triangles]
So, the diagonals are congruent.
Exercise
- Quadrilateral PQRS is a rectangle. Find the value of t.
- What is the perimeter of the parallelogram WXYZ?
- Give the condition required if the given figure is a rectangle.
- For rectangle GHJK, find the value of GJ.
- Find the angle perimeter of LOPNM.
Concept Map
What we have learned
- A parallelogram in which each pair of adjacent sides is perpendicular is called a rectangle.
- The diagonals of a rectangle are congruent.
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