Mensuration

Given:
Length of rectangle = l = 80 cm
side of square = a = 60 cm

Also, we know
Perimeter of rectangle = 2(l + b)
Area of rectangle = lb,
where l = length and b = breadth

Perimeter of square = 4a
area of square = a² ,
where a is side of square.
Let breadth of the rectangle be b

∵ Perimeter of the rectangle = Perimeter of the square

∴ 2 × (80 + b) = 4 × 60
2 × (80 + b) = 240

(80 + b) = 240/2
80 + b = 120

b = 120 - 80

⇒ b = 40 m

Now, area of square = a² = 60² = 3600 m²

And area of the rectangle = lb = 80 × 40 = 3200 m²

Clearly, area of square is greater.

Area of the square plot = Side² = 25² = 625 square metre

Area of the house construction part = length x breadth

= 20 x 15 = 300 sq m

Area of garden = 25² – 15 × 20

= 625 – 300

= 325 m²

Thus, total cost of developing a garden around the house at the rate of Rs 55 per m² = 325 × 55

= Rs 17875

Here, length of rectangle = 20 – (3.5 + 3.5) = 13 m, breadth = diameter of semi circle = 7 m

Diameter of Semi Circle = 7 m, i.e. radius r = 7/2 m = 3.5 m

Area of the garden = sum of areas two semicircular shapes + area of rectangle

Area of the garden = π r² + Length × Breadth
[putting the value of π = 22/7 ]

Area of the garden = 22 × 0.5 × 3.5 + 13 × 7

Area of the garden = 38.5 + 91

Area of the garden = 129.5 m²

And perimeter = Total Length of Outer Boundary = Circumference of Circle + 2 × Length of rectangle

Perimeter of the garden = 2 π r + 2 l

Perimeter of the garden = 22 + 26

Perimeter of the garden = 48 m

Food pieces with larger perimeter would make the ant to take the longer round.

Perimeter for Shape A:

Since, Shape A is Semi Circle.

Also diameter is the part of the figure.

Perimeter = πr + Diameter
= πr + 2r

= (22/7) × 1.4 + 2.8

= 7.2 cm

Perimeter for Shape B:

Perimeter = Sum of length of all the outer boundary

= 2.8 + 1.5 + 1.5 + Perimeter of semi circular part

= 2.8 + 1.5 + 1.5 + πr

= 2.8 + 1.5 + 1.5 + (22/7) × 1.4

= 10.2 cm

Perimeter for Shape C:

Perimeter = Sum of length of all the outer boundary


Perimeter = 2 + 2 + perimeter of semi circular part

Radius of semicircle = d/2
= 2.8/2
= 1.4 cm

= 2 + 2 + πr

Perimeter = 2 + 2 + (22/7) × 1.4

= 8.4 cm

∴ Perimeter is maximum for shape B, So Ant would have to take the longer round for Shape B.

Area of trapezium = 1/2 (a + b) × h

Here, a = 1.2m, b = 1m, h = 0.8m, thus

Area = 1/2 × (1.2 + 1) × 0.8

Area = 0.5 × 2.2 × 0.8

Area = 1.1 × 0.8

Area = 0.11 × 8

= 0.88 m²

Area of Trapezium = 1/2 × (Sum of Length of Parallel Side) × Distance Between Them

∴ Area of trapezium = 1/2 × (a + b) × h = 34 cm²

Here, a = 10cm, h = 4cm, b = length of another parallel Side

∴ 1/2 × (10 + b) × 4 = 34
(10 + b) × 2 = 34
20 + 2b = 34
2b = 34 - 20
2b = 14
b = 7 cm

If a perpendicular from D to BC is drawn then it will be equal to AB,

then EC = 48-40 = 8 m.

In ΔDEC,
By Pythagoras theorem
DE² = DC²-EC²

DE² = 17² - 8² = 289 - 64 = 225

Or, DE = 15 m

Area of Trapezium = 1/2 × (sum of parallel sides) × height

= 1/2 × (48 + 40) × 15

= 660 m²

Area of upper triangle = 1/2 × height × base

= 1/2 × 13 × 24

= 156 m²

Area of lower triangle = 1/2 × height × base

= 1/2 × 8 × 24

= 96 m²

Area of the field = 156 + 96 = 252 m²

Formula: Area of Rhombus = 1/2 × product of diagonals

= 1/2 × 7.5 × 12

= 45 cm²

The diagram is given below:

Now,

Area of rhombus = Base × Altitude

= CD × BF

= 5 cm × 4.8 cm

= 24.0 cm²

Also, Area of rhombus = 1/2 × AD× BC

⇒ 24 = 1/2 × 8 × BC

⇒ BC = 6 cm

Hence, the length of the other diagonal is 6 cm.

Here, d’ = 45 cm and d’’= 30 cm

∵ Area of one tile = area of rhombus= 1/2 (d’ × d’’)

= 1/2 × 45 × 30

= 675 cm²

∴ Area of 3000 tiles= 675 × 3000 = 2025000

= 202.50 m² ----------(∵ 1m² = 10000cm²)

∵ Cost of polishing the floor per sq. meter = 4

∴ Cost of polishing the floor per 202.50 sq. meter = 4 × 202.50 = 810

Hence the total cost of polishing the floor is Rs810

Given: Perpendicular distance(h) = 100 m

Area of the trapezium shaped field

= 10500 m²

Let side along the road be x m then, side along the river = 2 x m

Area of the trapezium field

= 1/2× (sum of parallel sides)h

⇒ 10500 = 1/2 × (x + 2x) × 100

⇒ 10500 = 1/2 × 3x × 100

⇒x == 70m

Hence the side along the river = 2x

= 2 × 70 = 140 m.

Given: Octagon having eight equal sides, each 5 m

Construction: Divided the octagon in 3 figures, two trapeziums whose parallel and perpendicular sides are 11 m and 4 m respectively and third figure is rectangle having length and breadth 11 m and 5 m respectively.

Now Area of two trapeziums = 2 x 1/2 × (a + b) h

= (11 + 5) × 4

= 64 sq. m

And Area of rectangle = length × breadth

= 11 × 5

= 55 sq. m

∴ Total area of octagon = 64 + 55

= 119 sq. m

By Jyoti’s diagram,

Area of pentagon = Area of trapezium ABCP + Area of trapezium AEDP

= 1/2 (AP + BC) × CP + 1/2 (ED + AP) × DP = 1/2 (30 + 15 ) × CP + 1/2 (15 + 30) × DP

= 1/2 (30 + 15) (CP + DP)

= 1/2 × 45 × CD

= 1/2 × 45 × 15

=337.5 m²

By Kavita's diagram,

Area of pentagon = Area of square ABCD + Area of triangle ABP
we know,
area of square = (side)² = side × side
area of triangle = (1/2) × base x Height

= AB×AB + 1/2(AB×h)

= 15×15 + ½(15×15)

= 225 + 225/2

=225+112.5 = 337.5 m²

Here two of given figures (I) and (II) are similar in dimensions.
we know area of trapezium = (1/2) × (sum of parallel sides) × height

And also figures (III) and (IV) are similar in dimensions.

Area of figure (I) = Area of trapezium

= 1/2 (a + b) h

= 1/2 (28 + 20) × 4

= 96 cm²

Also Area of figure (II) = 96 cm²

Now Area of figure (III)

= Area of trapezium = = 1/2 (24 + 16) × 4

= 80 cm²

Also Area of figure (IV) = 80 cm²

(a) Given: Length of cuboidal box (l) = 60 cm

Breadth of cuboidal box (b) = 40 cm

Height of cuboidal box (h) = 50 cm

∴ Total surface area of cuboidal box = 2 (lb + bh + hl)

= 2 (60 × 40 + 40 × 50 + 50 × 60)

= 2 (2400 + 2000 + 3000)

= 2 × 7400 = 14800 cm²

(b) Given: Edge of cubical box (l) = 50 cm

Total surface area of cubical box= 6l²

= 6 × 50²

= 6 × 2500

= 15000 cm²

Hence cuboidal box (a) requires the lesser amount of material to make since surface area of box (a) is less than that of box (b).

Length of suitcase = 80 cm
Breadth of suitcase = 48 cm
Height of suitcase = 24 cm

Surface area of cuboid = 2(lb + bh + hl)

= 2(80 × 48 + 80 × 24 + 48 × 24)

= 13824 cm²

Area of cloth = Area of suitcase.
Hence surface area of 100 such suitcases = 1382400 cm²

Required tarpaulin = surface area of 100 such suitcases

So, required length =

= 144 cm

Required tarpaulin for 100 suitcases = 144 x 100 = 14400 cm = 144 m

Hence, the tarpaulin cloth required to cover 100 suitcases is 144 m.​

Surface Area = 6 x side²

⇒ 600 = 6 x side²

⇒ Side² = 100

⇒ Side = 10 cm

Given,
length, l = 1 m
Breadth, b = 2 m
Height, h = 1.5 m


Surface Area of Cabinet = 2(lb + lh + bh)

= 2(1 x 2 + 1 x 1.5 + 1.5 x 2)

= 13 m²

Area of Bottom Surface = lb = 1 x 2 = 2 m²

Hence, Area Covered by painting = 13 – 2 = 11 m²

Let length, breadth and height of room be l, b and h respectively
Given,
l = 15 m
b = 10 m
h = 7 m

and we know, area of four walls = 2(l + b)h

Hence,

Area to be painted = Area of four Walls of a Room + area of ceiling
= 2(l + b)h + lb
= 2(15 + 10)7 + 15(10)
= 14(25) + 150
= 350 + 150
= 500 m²

As, one can of paint is enough for 100 sq m

So, 500/100 = 5 cans are needed to paint the hall.

The figure is shown:

Similarity: Their dimensions are equal, i.e. 7 cm width, breadth and height

Difference: The figure on the left is cylindrical and that on the right is cuboidal.

So, surface area of cylinder = 2 π rh = 2 × × 7

= 154 sq. cm

And surface area of the cube = 4 × side²

= 4 × 7²

= 196 sq. cm

Clearly, the cube has a larger surface area than the cylinder.

Given: Radius of cylindrical tank, r = 7m
Height of cylindrical tank, h =3m

The figure of the question is:

The total surface area of cylindrical tank, S = 2 π r( h + r) ............(1)

Putting the values of r and h in equation (1), we get,

S = 2 ×(22/7)× 7(7 + 3)

S = 2 × (22/7) × 7(10)

S = 2 × 22× 10

S = 440 m²

The total surface area of the cylinder is 440 m²

∴ 440 m² of sheet of metal is required.

Area of Rectangular Sheet = Surface Area of the Cylinder

Area of Rectangle = l x b

⇒ l x b = 4224

⇒ l x 33 = 4224

⇒ l = 128 cm

Perimeter of rectangular sheet = 2( l + b)

= 2 (128 + 33)

= 2 x 161 = 322 cm

Hence perimeter of rectangular sheet is 322 cm.

Given: Diameter of road roller = 84 cm

∴ Radius of road roller = 42 cm

Length of road roller, h = 1 m = 100 cm

Curved surface area of road roller = 2 π r h

= 2 × 22/7 × 42 × 100

= 26400 cm²

Area covered by road roller in 750 revolutions = 26400 × 750

= 1,98,00,000 cm² or 1980 m²

∴ the area of the road is 1980 sq. m.

Given: Diameter of cylindrical container = 14 cm

∴ Radius of cylindrical container, r = 7 cm

Height of cylindrical container = 20 cm

Height of the label, h = 20 – 2 – 2

= 16 cm

Curved surface area of label = 2 π r h

= 2 × (22/7) × 7 × 16

= 704 cm²

Hence the area of the label of 704 cm².

(a) We need to calculate the volume to find the capacity

(b) As plastering will cover the surface so we need surface area to know this

(c) Volume will give the capacity and that can be compared with capacity of smaller tanks

As cylinder A’s radius is half of radius of cylinder B so its volume will be lesser than that of cylinder B.

Although Cylinder B’s height is half of height of cylinder A but as you know

while calculating the volume we need to square the radius so halving the radius has a greater impact than halving the height.

While calculating surface area, the curved surface area in both will be same and

the total surface area will be greater in the cylinder with the greater radius.

Now, volume of the cylinder = π r² h

Thus, volume of cylinder A = = 539 cub. cm

Volume of cylinder B = = 1078 cub. cm


Also, curved surface area of a cylinder = 2πrh

Curved surface area of cylinder A = = 308 sq. cm

Curved surface area of cylinder B = = 308 sq. cm

Total surface area of Cylinder = 2 π r h + 2 π r²

Total surface area of Cylinder A = 2 × = 385 sq. cm

Total surface area of Cylinder B = 2 × = 616 sq. cm


Hence the surface area of cylinder B is greater.

Given: Area of base = 180cm²

Height of cuboid = ?

We know that,

Volume of cuboid = Area of base × Height

Hence,
Height =

Given: Dimensions of cuboid = 60 cm × 54 cm × 30 cm

Side of cube = 6 cm

We know that, Volume of cuboid = l × b × h

Volume of cube = side × side × side

Therefore
Number of cubes =

= 450 cubes

Volume of cylinder = π r² h

Given,
Diameter = 140 cm
Now,

Hence, radius = r = 70 cm

Also, 100 cm = 1 m
70 cm = 0.7 m
volume of cylinder given = 1.54 m³
Hence, we have

Volume of milk tank = π r² h

= 49.5 m³

As we know, 1m³ = 1000 litres

So, 49.5 m³ = 49.5(1000)


49500 litres

(i) ∵ Surface Area of a Cube SA= 6(Side)²
If Side is doubled then New Surface Area,
SA' = 6(2×Side)²
= 4× 6(Side)²
= 4 × SA
∴ SA of new Cube will be 4 times of SA of Original Cube.

(ii) ∵ Volume of a Cube V= (Side)³

The volume o the reservoir is 108 m³ = 108000 L

(∵ 1 m³ = 1000 Litre)

And, water if poured into the reservoir at the rate = 60 L per minute.

⇒ In 1 min, the water poured in tank = 60 L

⇒ In 60 min (1 hour), the water poured in tank = 60 × 60 = 3600 L

∴Time to fill the reservoir,

= 30 hours