Advertisements
Advertisements
प्रश्न
In the given figure, AB ∥ SQ ∥ DC and AD ∥ PR ∥ BC. If the area of quadrilateral ABCD is 24 square units, find the area of quadrilateral PQRS.
Advertisements
उत्तर
Let SQ and PR intersect at point O.
Now,
DC || SQ and RP || BCC
⇒ RC || OQ and RO || QC
⇒ QuadrilateralROQC is a parallelogram.
Similarly,
Quadrilateral ROSD, APOS and POQB are parallelograms.
ΔROQ and parallelogram ROQC are on the same base and between the same parallel lines.
∴ A(ΔROQ) = `(1)/(2)` x A(||gm ROQC) .....(i)
Similarly,
A(ΔPOQ) = `(1)/(2)` x A(||gm POQB) .....(ii)
A(ΔPOS) = `(1)/(2)` x A(||gm APOS) .....(iii)
A(ΔSOR) = `(1)/(2)` x A(||gm ROSD) .....(iv)
Adding equations (i), (ii), (iii) and (iv), we get
A(ΔROQ) + A(ΔPOQ) + A(ΔPOS) + A(ΔSOR)
= `(1)/(2)`[A(||gm ROQC) + A(||gm POQB) + A(||gm APOS) + A(||gm ROSD)]
⇒ A(||gm PQRS)
= `(1)/(2)` x A(||gm ABCD)
= `(1)/(2) xx 24`
= 12 sq. units.
APPEARS IN
संबंधित प्रश्न
ABCD is a parallelogram. P and Q are mid-points of AB and CD. Prove that APCQ is also a parallelogram.
ABCD is a parallelogram. P and T are points on AB and DC respectively and AP = CT. Prove that PT and BD bisect each other.
PQRS is a parallelogram. T is the mid-point of RS and M is a point on the diagonal PR such that MR = `(1)/(4)"PR"`. TM is joined and extended to cut QR at N. Prove that QN = RN.
Prove that the line segment joining the mid-points of the diagonals of a trapezium is parallel to each of the parallel sides, and is equal to half the difference of these sides.
In a parallelogram PQRS, M and N are the midpoints of the opposite sides PQ and RS respectively. Prove that
PMRN is a parallelogram.
ABCD is a trapezium in which side AB is parallel to side DC. P is the mid-point of side AD. IF Q is a point on the Side BC such that the segment PQ is parallel to DC, prove that PQ = `(1)/(2)("AB" + "DC")`.
Prove that the diagonals of a kite intersect each other at right angles.
Prove that the diagonals of a square are equal and perpendicular to each other.
In ΔABC, the mid-points of AB, BC and AC are P, Q and R respectively. Prove that BQRP is a parallelogram and that its area is half of ΔABC.
In ΔPQR, PS is a median. T is the mid-point of SR and M is the mid-point of PT. Prove that: ΔPMR = `(1)/(8)Δ"PQR"`.
