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Correct option is  B) Median

Correct option is  B) 4 cm²

1 cm² = 5 m 

1 cm² = 1 cm × 1 cm = 5m × 5m = 25m² 

∴ 6 cm² = 6 × 25 m² = 150 m²

No 

1 sq. m = 100 cm²

Correct option is  C) 1 : 1

Area of □ABCD = 36 cm² 

AB = 4.2 cm 

then □ABCD = AB X Height 

[ ∵ base x height]

36 = 4.2 x h

∴ h = 36/4.2

But □ ABCD and □ ABEF are on the same base and between the same parallels. 

∴ □ABCD = □ABEF

□ABEF = base x height = AB x height

∴ height = 36/4.2 = 8.571cm

Solution: □ABCD is a parallelogram. 

P is any interior point.

Draw a line \(\overline {XY}\) parallel to AB through P.

Now ΔAPB = 1/2 □AXYB ……………(1)

[∵ ΔAPB, □AXYB lie on the same base AB and between AB//XY]

Also ΔPCD = 1/2  □CDXY ………………… (2)

[ ∵ ΔPCD; □CDXY lie on the same 

base CD and between CD//XY] 

Adding (1) & (2), we get

Δ APB + ΔPCD = 1/2 □AXYB + 1/2 □CDXY

= 1/2 [□ AXYB + □ CDXY] [from the fig.)

= 1/2 □ABCD

Hence Proved.

ΔAPB and □ABCD are on the same base AB and between the same parallel lines AB//CD.

∴ ΔAPB = 1/2 □ABCD …………… (1)

Also ΔBCQ and □BCDA are on the same base BC and between the same parallel lines BC//AD.

∴ ΔBCQ = 1/2 □BCDA …………….. (2)

But □ABCD and □BCDA represent same parallelogram. 

∴ΔAPB = ΔBCQ [from (1) & (2)]

Area of parallelogram = base x height 

AB x AE = AD x CF

⇒ 10 x 8 = 12 x AD

⇒ AD = 10x8/12 = 6.666 ……….

∴ AD ≅ 6.7 cm

□PQRS and □ABRS are on the same base SR and between the same parallels SR//PB. 

∴ □PQRS = □ABRS

In ΔABC; AD is a median. 

∴ ΔABD = ΔACD …………….. (1) 

(∵ Median divides a triangle in two equal triangles)

Also in ΔABD; BE is a median. 

∴ ΔABE = ΔBED = 1/2 ΔABD …………..(2)

Also in ΔACD; CE is a median.

∴ ΔACE = ΔCDE = 1/2 ΔACD …………….(3)

From (1), (2) and (3);

ΔABE = ΔACE

(OR)

ΔABD = ΔACD [∵ AD is median in ΔABC]

1/2 ΔABD = 1/2 ΔACD

[Dividing both sides by 2] 

ΔABE = ΔAEC 

[∵ BE is median of ΔABD, CE is median of ΔACD] 

Hence proved.

□AEDF = □AEDC + ΔACF 

= □AEDC + ΔABC 

[ ∵ ΔACF = ΔACB] 

= area (ABCDE) 

Hence proved.

ΔADB = 1/2 ΔABC [ ∵ AD is a median of ΔABC]

1/2 = [1/2 AB x BC]

= 1/4 x 12 x 6.5

= 19.5 cm²

Circumference of the circle = 88 cm … [Given] 

Circumference of the circle = 2πr 

∴ 88 = 2 x (22/7) x r 

∴ r = (88 x 7/2 x 22)

∴ r = 14cm 

Area of the circle = πr² = (22/7) x (14)² 

= (22/7) x 14 x 14 = 22 x 2 x 14 = 616 sq. cm 

∴ The area of circle is 616 Sq cm

Draw a big enough parallelogram ABCD on a paper as shown in the figure. Draw perpendicular AE on side BC. Cut the right angled ∆AEB. Join it with the remaining part of ₹ABCD as shown in the figure. 

The new figure formed is a rectangle. The rectangle is formed from the parallelogram.

So, areas of both the figures are equal. Base of parallelogram is one side (length) of the rectangle and its height is the other side (breadth) of the rectangle. 

∴ Area of a parallelogram = Area of a rectangle 

= length × breadth = base × height

A(ABCD) = A(∆BAD) + A(∆BDC) 

In ∆BAD, m∠BAD = 90°, l(AB) = 40m, l(AD) = 9m 

A(∆BAD) = (1/2) x product of sides forming the right angle 

= (1/2) x l(AB) x l(AD)

= (1/2) x 40 x 9 = 180 sq. m 

In ∆BDC, l(BT) = 13m, l(CD) = 60m 

A(∆BDC) = (1/2) x base x height 

= (1/2) x l(CD) x l(BT) 

= (1/2) x 60 x 13

= 390 sq. m A (ABCD) 

= A(∆BAD) + A(∆BDC) 

= 180 + 390 

= 570 sq. m 

∴ The area of ABCD is 570 sq.m.

Length of the two parallel sides of a trapezium are 8.5 cm and 11.5 cm and its height is 4.2 cm. Area of a trapezium

= \(\cfrac{1}{2}\)x sum of lengths of parallel sides x height

= \(\cfrac{1}{2}\)x (8.5 + 11.5) x 4.2

= \(\cfrac{1}{2}\) x 20 x 4.2

= 10 x 4.2 

= 42 sq. cm 

∴ The area of the trapezium is 42 sq. cm.

Given, area of a parallelogram = 83.2 sq.cm, height = 6.4 cm 

Area of a parallelogram = base × height 

∴ 83.2 = base × 6.4 

∴ base = 83.2/6.4 = 13 cm 

∴ The length of the base of the parallelogram is 13 cm.

i. Radius of the circle (r) = 28 cm … [Given] 

Area of the circle = πr² 

= (22/7) x (28)² 

= (22/7) x 28 x 28 

= 22 x 4 x 28 

= 2464 sq. cm

ii. Radius of the circle (r) = 10.5 cm … [Given] 

Area of the circle = πr² 

= (22/7) x (10.5)² 

= (22/7) x 10.5 x 10.5 

= 22 x 1.5 x 10.5 

= 346.5 sq. cm

iii. Radius of the circle (r) = 17.5 cm … [Given] 

Area of the circle = πr² 

= (22/7) x (17.5)² 

= (22/7) x 17.5 x 17.5 

= 22 x 2.5 x 17.5 

= 962.5 sq. cm

C) base and height

Correct option is  B) 4 cm

D) Triangular

Correct option is  B) 3 cm

Correct option is  C) 3/4 ΔPQR

Correct option is  C) 48 cm²

Correct option is  B) □ABEF

D) parallelogram

Correct option is  B) ΔQRT

Correct option is  B) □EFGH

Correct option is  B) 15 cm²

Area of quadrilateral shaped farm

= 1/2 x diagonal x (Sum of perpendiculars drawn from opposite vertices)

= 1/2 x 220 x (80 + 130)

= 1/2 x 220 x 210

= 23100 m²

A) base × altitude

C) Half of the product of the diagonals

Area of rhombus shaped tiles

= 2[1/2 x (4.5×9)]

Area of rhombus = 1/2 x Product of diagonals

= 40.5 cm²

Area of rhombus shaped plot

= 1/2 x Product of diagonals

= 1/2 x 12.5 x 10.4

= 65 meter²

Cost of making plane this plot

= 65 x 180

= Rs 11,700

Correct option is  B) 30 cm²

a. Area of ∆ ABC = \(\frac{1}{2}\) x 5 x 4 = 10 sq.cm

b. Area of ∆ ABD = Area of ∆ ABC 

Triangles with the same base and the third vertex on a line parallel to the base, have the same area.

Area of ∆ ABD = 10 sq.cm

Lengths of the diagonals of a rhombus are 15 cm and 24 cm.

Area of a rhombus

= \(\cfrac{1}{2}\)× product of lengths of diagonals

 = \(\cfrac{1}{2}\) × 15 × 24

= 15 × 12

= 180 sq.cm

∴ The area of the rhombus is 180 sq. cm.

Lengths of the diagonals of a rhombus are 16.5 cm and 14.2 cm. 

Area of a rhombus = (1/2) × product of lengths of diagonals 

= (1/2) × 16.5 × 14.2 = 16.5 × 7.1 

= 117.15 sq cm 

∴ The area of the rhombus is 117.15 sq. cm.