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Class 10 Maths Chapter 13 NCERT Solutions Surface area and volume

Surface area and volume



Class 10 Maths Chapter 13 Exercise: 13.1 (Page No: 244)

1. 2 cubes each of volume 64 cm3 are joined end to end. Find the surface area of the resulting cuboid.

Answer:

The diagram is given as:

ncert solutions for class 10 maths chapter 13 fig 1

Given,

The Volume (V) of each cube is = 64 cm3

This implies that a3 = 64 cm3

∴ a = 4 cm

Now, the side of the cube = a = 4 cm

Also, the length and breadth of the resulting cuboid will be 4 cm each. While its height will be 8 cm.

So, the surface area of the cuboid = 2(lb + bh + lh)

= 2(8×4 + 4×4 + 4×8) cm2

= 2(32 + 16 + 32) cm2

= (2 × 80) cm2 = 160 cm2

2. A vessel is in the form of a hollow hemisphere mounted by a hollow cylinder. The diameter of the hemisphere is 14 cm and the total height of the vessel is 13 cm. Find the inner surface area of the vessel.

Answer:

The diagram is as follows:

ncert solutions for class 10 maths chapter 13 fig 2

Now, the given parameters are:

The diameter of the hemisphere = D = 14 cm

The radius of the hemisphere = r = 7 cm

Also, the height of the cylinder = h = (13 – 7) = 6 cm

And, the radius of the hollow hemisphere = 7 cm

Now, the inner surface area of the vessel = CSA of the cylindrical part + CSA of hemispherical part

=> (2Ï€rh+2Ï€r2) cm2 = 2Ï€r(h+r) cm2

=> 2 × 22/7 × 7 (6+7) cm2 = 572 cm2

3. A toy is in the form of a cone of radius 3.5 cm mounted on a hemisphere of same radius. The total height of the toy is 15.5 cm. Find the total surface area of the toy.

Answer:

The diagram is as follows:

ncert solutions for class 10 maths chapter 13 fig 3

Given that the radius of the cone and the hemisphere (r) = 3.5 cm or 7/2 cm

The total height of the toy is given as 15.5 cm.

So, the height of the cone (h) = 15.5 – 3.5 = 12 cm

ncert solutions for class 10 maths chapter 13 fig 3a

∴ The curved surface area of cone = Ï€rl

=> (22/7 × 7/2 × 25/2) = 275/2 cm2

Also, the curved surface area of the hemisphere = 2Ï€r2

=> 2 × 22/7 × (7/2)2

= 77 cm2

Now, the Total surface area of the toy = CSA of cone + CSA of hemisphere

= (275/2 + 77) cm2

= (275+154)/2 cm2

= 429/2 cm2 = 214.5 cm2

So, the total surface area (TSA) of the toy is 214.5 cm2

4. A cubical block of side 7 cm is surmounted by a hemisphere. What is the greatest diameter the hemisphere can have? Find the surface area of the solid.

Answer:

It is given that each side of cube is 7 cm. So, the radius will be 7/2 cm.

ncert solutions for class 10 maths chapter 13 fig 4

We know,

The total surface area of solid (TSA) = surface area of cubical block + CSA of hemisphere – Area of base of hemisphere

∴ TSA of solid = 6×(side)+ 2Ï€r– Ï€r2

= 6×(side)+ Ï€r2

= 6×(7)+ (22/7 × 7/2 × 7/2)

= (6×49) + (77/2)

= 294 + 38.5 = 332.5 cm2

So, the surface area of the solid is 332.5 cm2

5. A hemispherical depression is cut out from one face of a cubical wooden block such that the diameter l of the hemisphere is equal to the edge of the cube. Determine the surface area of the remaining solid.

Answer:

The diagram is as follows:

ncert solutions for class 10 maths chapter 13 fig 5

Now, the diameter of hemisphere = Edge of the cube = l

So, the radius of hemisphere = l/2

∴ The total surface area of solid = surface area of cube + CSA of hemisphere – Area of base of hemisphere

=> TSA of remaining solid = 6 (edge)+ 2Ï€r– Ï€r2

= 6l+ πr2

= 6l+ π(l/2)2

= 6l+ πl2/4

= l2/4 (24 + π) sq. units

6. A medicine capsule is in the shape of a cylinder with two hemispheres stuck to each of its ends. The length of the entire capsule is 14 mm and the diameter of the capsule is 5 mm. Find its surface area.

ncert solutions for class 10 maths chapter 13 fig 6

Answer:

Two hemisphere and one cylinder are shown in the figure given below.

ncert solutions for class 10 maths chapter 13 fig 6a

Here, the diameter of the capsule = 5 mm

∴ Radius = 5/2 = 2.5 mm

Now, the length of the capsule = 14 mm

So, the length of the cylinder = 14 – (2.5 + 2.5) = 9 mm

∴ The surface area of a hemisphere = 2Ï€r2 = 2 × 22/7 × 2.5 × 2.5

= 275/7 mm2

Now, the surface area of the cylinder = 2Ï€rh

= 2 × 22/7 × 2.5 x 9

=> 22/7 × 45 = 990/7 mm2

Thus, the required surface area of medicine capsule will be

= 2 × surface area of hemisphere + surface area of the cylinder

= (2 × 275/7) × 990/7

=> 550/7 + 990/7 = 1540/7 = 220 mm2

7. A tent is in the shape of a cylinder surmounted by a conical top. If the height and diameter of the cylindrical part are 2.1 m and 4 m respectively, and the slant height of the top is 2.8 m, find the area of the canvas used for making the tent. Also, find the cost of the canvas of the tent at the rate of Rs 500 per m2. (Note that the base of the tent will not be covered with canvas.)

Answer:

It is known that a tent is a combination of cylinder and a cone.

ncert solutions for class 10 maths chapter 13 fig 7

From the question we know that

Diameter = 4 m

Slant height of the cone (l) = 2.8 m

Radius of the cone (r) = Radius of cylinder = 4/2 = 2 m

Height of the cylinder (h) = 2.1 m

So, the required surface area of tent = surface area of cone + surface area of cylinder

= πrl + 2πrh

= πr (l+2h)

= 22/7 × 2 (2.8 + 2×2.1)

= 44/7 (2.8 + 4.2)

= 44/7 × 7 = 44 m2

∴ The cost of the canvas of the tent at the rate of ₹500 per mwill be

= Surface area × cost per m2

=> 44 × 500 = ₹22000

So, Rs. 22000 will be the total cost of the canvas.

8. From a solid cylinder whose height is 2.4 cm and diameter 1.4 cm, a conical cavity of the

same height and same diameter is hollowed out. Find the total surface area of the

remaining solid to the nearest cm2.

Answer:

The diagram for the question is as follows:

ncert solutions for class 10 maths chapter 13 fig 8

From the question we know the following:

The diameter of the cylinder = diameter of conical cavity = 1.4 cm

So, the radius of the cylinder = radius of the conical cavity = 1.4/2 = 0.7

Also, the height of the cylinder = height of the conical cavity = 2.4 cm

ncert solutions for class 10 maths chapter 13 fig 8a

Now, the TSA of remaining solid = surface area of conical cavity + TSA of the cylinder

= πrl + (2πrh + πr2)

= πr (l + 2h + r)

= 22/7 × 0.7 (2.5 + 4.8 + 0.7)

= 2.2 × 8 = 17.6 cm2

So, the total surface area of the remaining solid is 17.6 cm2




Class 10 Maths Chapter 13 Exercise: 13.2 (Page No: 247)

1. A solid is in the shape of a cone standing on a hemisphere with both their radii being equal to 1 cm and the height of the cone is equal to its radius. Find the volume of the solid in terms of π.Sol. Here, r = 1 cm and h = 1 cm.

Solution:

The diagram is as follows.

ncert solutions for class 10 maths chapter 13 fig 9

Now, Volume of solid = Volume of conical part + Volume of hemispherical part

We know the volume of cone = ⅓ Ï€r2h

And,

The volume of hemisphere = ⅔ Ï€ r3

So, volume of solid will be

ncert solutions for class 10 maths chapter 13 fig 9a

= π cm3

Q.2. Rachel, an engineering student, was asked to make a model shaped like a cylinder with two cones attached at its two ends by using a thin aluminium sheet. The diameter of the model is 3 cm and its length is 12 cm. If each cone has a height of 2 cm, find the volume of air contained in the model that Rachel made. (Assume the outer and inner dimensions of the model to be nearly the same.)

Solution:

Given,

Height of cylinder = 12 – 4 = 8 cm

Radius = 1.5 cm

Height of cone = 2 cm

Now, the total volume of the air contained will be = Volume of cylinder + 2 × (Volume of cone)

∴ Total volume = Ï€r2h + [2 × (⅓ Ï€r2h )]

= 18 π + 2(1.5 π)

= 66 cm3.

3. A gulab jamun contains sugar syrup up to about 30% of its volume. Find approximately how much syrup would be found in 45 gulab jamuns, each shaped like a cylinder with two hemispherical ends with length 5 cm and diameter 2.8 cm (see figure).

ncert solutions for class 10 maths chapter 13 fig 10

Solution:

It is known that the gulab jamuns are similar to a cylinder with two hemispherical ends.

So, the total height of a gulab jamun = 5 cm.

Diameter = 2.8 cm

So, radius = 1.4 cm

∴ The height of the cylindrical part = 5 cm – (1.4 + 1.4) cm

=2.2 cm

Now, total volume of One Gulab Jamun = Volume of Cylinder + Volume of two hemispheres

= πr2h + 4/3 πr3

= 4.312 π + (10.976/3) π

= 25.05 cm3

We know that the volume of sugar syrup = 30% of total volume

So, volume of sugar syrup in 45 gulab jamuns = 45 x 30% (25.05 cm3)

= 45 x 7.515 = 338.184 cm3

4. A pen stand made of wood is in the shape of a cuboid with four conical depressions to hold pens. The dimensions of the cuboid are 15 cm by 10 cm by 3.5 cm. The radius of each of the depressions is 0.5 cm and the depth is 1.4 cm. Find the volume of wood in the entire stand (see Fig.).

ncert solutions for class 10 maths chapter 13 fig 11

Solution:

Volume of cuboid = length x width x height

We know the cuboid’s dimensions as 15 cm x 10 cm x 3.5 cm

So, the volume of the cuboid = 15 x 10 x 3.5 = 525 cm3

Here, depressions are like cones and we know,

Volume of cone = ⅓ Ï€r2h

Given, radius (r) = 0.5 cm and depth (h) = 1.4 cm

∴ Volume of 4 cones = 4x ⅓ Ï€r2h

= 1.46 cm2

Now, volume of wood = Volume of cuboid – 4 x volume of cone

= 525 – 1.46 = 523.54 cm2

5. A vessel is in the form of an inverted cone. its height is 8 cm and the radius of its top, which is open, is 5 cm. It is filled with water up to the brim. When lead shots, each of which is a sphere of radius 0.5 cm are dropped into the vessel, one-forth of the water flows out. Find the number of lead shots dropped in the vessel.

Solution:

For the cone,

Radius = 5 cm,

Height = 8 cm

Also,

Radius of sphere = 0.5 cm

The diagram will be like

ncert solutions for class 10 maths chapter 13 fig 12

It is known that,

Volume of cone = volume of water in the cone

= ⅓ Ï€r2h = (200/3)Ï€ cm3

Now,

Total volume of water overflown= (¼) × (200/3) Ï€ =(50/3) Ï€

Volume of lead shot

= 4/3 πr3

= (1/6) π

Now,

The number of lead shots = Total Volume of Water overflown/ Volume of Lead shot

= (50/3) Ï€ /(⅙) Ï€

= 50/36 × 6 = 100

6. A solid iron pole consists of a cylinder of height 220 cm and base diameter 24 cm, which is surmounted by another cylinder of height 60 cm and radius 8 cm. Find the mass of the pole, given that 1 cm3 of iron has approximately 8 g mass.

Solution:

Given, the height of the big cylinder (H) = 220 cm

Radius of the base (R) = 24/12 = 12 cm

So, the volume of the big cylinder = πR2H

= Ï€(12)2 × 220 cm3

= =99565.8 cm3

Now, the height of smaller cylinder (h) = 60 cm

Radius of the base (r) = 8 cm

So, the volume of the smaller cylinder = πr2h

= Ï€(8)2 × 60 cm3

= 12068.5 cm3

∴ Volume of iron = Volume of the big cylinder + Volume of the small cylinder

99565.8 + 12068.5

=111634.5 cm3

We know,

Mass = Density x volume

So, mass of the pole = 8×111634.5

= 893 Kg (approx.)

7. A solid consisting of a right circular cone of height 120 cm and radius 60 cm standing on a hemisphere of radius 60 cm is placed upright in a right circular cylinder full of water such that it touches the bottom. Find the volume of water left in the cylinder, if the radius of the cylinder is 60 cm and its height is 180 cm.

Solution:

ncert solutions for class 10 maths chapter 13 fig 13

Here, the volume of water left will be = Volume of cylinder – Volume of solid

Given,

Radius of cone = 60 cm,

Height of cone = 120 cm

Radius of cylinder = 60 cm

Height of cylinder = 180 cm

Radius of hemisphere = 60 cm

Now,

Total volume of solid = Volume of Cone + Volume of hemisphere

Volume of cone = Ï€ × 122 × 103cm= 144 × 103 Ï€ cm3

So, Total volume of solid = 144 × 103 Ï€ cm– (⅔) × Ï€ × 10cm3

Volume of hemisphere = (⅔) × Ï€ × 10cm3

Volume of cylinder = Ï€ × 60× 180 = 648000 = 648 × 103 Ï€ cm3

Now, volume of water left will be = Volume of cylinder – Volume of solid

= ( 648-288) × 103 × Ï€ = 1.131 m3

8. A spherical glass vessel has a cylindrical neck 8 cm long, 2 cm in diameter; the diameter o the spherical part is 8.5 cm. By measuring the amount of water it holds, a child finds its volume to be 345 cm3. Check whether she is correct, taking the above as the inside measurements, and π = 3.14.

Solution:

Given,

For the cylinder part, Height (h) = 8 cm and Radius (R) = (2/2) cm = 1 cm

For the spherical part, Radius (r) = (8.5/2) = 4.25 cm

ncert solutions for class 10 maths chapter 13 fig 14

Now, volume of this vessel = Volume of cylinder + Volume of sphere

= Ï€ × (1)2 × 8 + (4/3) Ï€ (1)3

= 346.51 cm3




Class 10 Maths Chapter 13 Exercise: 13.3 (Page No: 251)

1. A metallie sphere of radius 4.2 cm is melted and recast into the shape of a cylinder of radius 6 cm. Find the height of the cylinder.

Solution:

It is given that radius of the sphere (R) = 4.2 cm

Also, Radius of cylinder (r) = 6 cm

Now, let height of cylinder = h

It is given that the sphere is melted into a cylinder.

So, Volume of Sphere = Volume of Cylinder

∴ (4/3)× Ï€× R= Ï€× r× h.

=> h = 2.74 cm

2. Metallic spheres of radii 6 cm, 8 cm and 10 cm, respectively, are melted to form a single solid sphere. Find the radius of the resulting sphere.

Solution:

For Sphere 1:

Radius (r1) = 6 cm

∴ Volume (V1) = (4/3) × Ï€× r13

For Sphere 2:

Radius (r2) = 8 cm

∴ Volume (V2) = (4/3) × Ï€ × r23

For Sphere 3:

Radius (r3) = 10 cm

∴ Volume (V3) = (4/3) × Ï€× r33

Also, let the radius of the resulting sphere be “r”

Now,

Volume of resulting sphere = V1 + V2 + V3

(4/3)× Ï€× r3 = (4/3)× Ï€× r1+ (4/3)× Ï€× r23 + (4/3) × Ï€× r33

r= 63 + 83 + 103

r= 1728

r = 12 cm

3. A 20 m deep well with diameter 7 m is dug and the earth from digging is evenly spread out to form a platform 22 m by 14 m. Find the height of the platform.

Solution:

It is given that the shape of the well is in the shape of a cylinder with a diameter of 7 m

So, radius = 7/2 m

Also, Depth (h) = 20 m

Volume of the earth dug out will be equal to the volume of the cylinder

∴ Volume of Cylinder = Ï€ × r2 × h

= 22 × 7 × 5 m3

Let the height of the platform = H

Volume of soil from well (cylinder) = Volume of soil used to make such platform

Ï€ × r2 × h = Area of platform × Height of the platform

We know that the dimension of the platform is = 22 × 14

So, Area of platform = 22 × 14 m2

∴ Ï€ × r2 × h = 22 × 14 × H

Or, H = 2.5 m

4. A well of diameter 3 m is dug 14 m deep. The earth taken out of it has been spread evenly all around it in the shape of a circular ring of width 4 m to form an embankment. Find the height of the embankment.

Solution:

The shape of the well will be cylindrical as given below.

ncert solutions for class 10 maths chapter 13 fig 15

Given, Depth (h1) of well = 14 m

Diameter of the circular end of the well =3 m

So, Radius (r1) = 3/2 m

Width of the embankment = 4 m

From the figure, it can be said that the embankment will be a cylinder having an outer radius (r2)

as (4 + 3/2) = 11/2 m and inner radius (r1) as 3/2m

Now, let the height of embankment be h2

∴ Volume of soil dug from well = Volume of earth used to form embankment

=> Ï€ × r12 × h = Ï€ × (r22 – r12) × h2

Solving this, we get,

The height of the embankment (h2) as 1.125 m.

5. A container shaped like a right circular cylinder having diameter 12 cm and height 15 cm is full of ice cream. The ice cream is to be filled into cones of height 12 cm and diameter 6 cm, having a hemispherical shape on the top. Find the number of such cones which can be filled with ice cream.

Solution:

Number of cones will be = Volume of cylinder / Volume of ice cream cone

For the cylinder part,

Radius = 12/2 = 6 cm

Height = 15 cm

∴ Volume of cylinder = Ï€ × r2 × h = 540Ï€

For the ice cone part,

Radius of conical part = 6/2 = 3 cm

Height = 12 cm

Radius of hemispherical part = 6/2 = 3 cm

Now,

Volume of ice cream cone = Volume of conical part + Volume of hemispherical part

= (⅓) × Ï€ × r2 × h + (⅔) × Ï€ × r3

= 36Ï€ + 18Ï€

= 54Ï€

∴ Number of cones = (540Ï€ / 54Ï€)

= 10

6. How many silver coins, 1.75 cm in diameter and of thickness 2 mm, must be melted to form a cuboid of dimensions 5.5 cn × 10 cm × 3.5 cm?

Solution:

It is known that the coins are cylindrical in shape.

So, height (h1) of the cylinder = 2 mm = 0.2 cm

Radius (r) of circular end of coins =1.75/2 = 0.875 cm

Now, the number of coins to be melted to form the required cuboids be “n”

So, Volume of n coins = Volume of cuboids

n × Ï€ × r× h1 = l × b × h

n × Ï€ × (0.875)2 × 0.2 = 5.5 × 10 × 3.5

Or, n = 400

7. A cylindrical bucket, 32 cm high and with radius of base 18 cm, is filled with sand. This bucket is emptied on the ground and a conical heap of sand is formed. If the height of the conical heap is 24 cm, find the radius and slant height of the heap.

Solution:

The diagram will be as-

ncert solutions for class 10 maths chapter 13 fig 16

Given,

Height (h1) of cylindrical part of the bucket = 32 cm

Radius (r1) of circular end of the bucket = 18 cm

Height of the conical heap ((h2) = 24 cm

Now, let “r2” be the radius of the circular end of the conical heap.

We know that volume of the sand in the cylindrical bucket will be equal to the volume of sand in the conical heap.

∴ Volume of sand in the cylindrical bucket = Volume of sand in conical heap

Ï€ × r12 × h1 = (⅓) × Ï€ × r22 × h2

Ï€ × 182 × 32 = (⅓) × Ï€ × r22 × 24

Or, r2 = 36 cm

And,

Slant height (l) = √(362 + 242) = 12√13 cm.

8. Water in a canal, 6 m wide and 1.5 m deep, is flowing with a speed of 10 km/h. How much area will it irrigate in 30 minutes, if 8 cm of standing water is needed?

Solution:

It is given that the canal is the shape of a cuboid with dimensions as:

Breadth (b) = 6 m and Height (h) = 1.5 m

It is also given that

The speed of canal = 10 km/hr

Length of canal covered in 1 hour = 10 km

Length of canal covered in 60 minutes = 10 km

Length of canal covered in 1 min = 1/60 x 10 km

Length of canal covered in 30 min (l) = 30/60 x 10 = 5km = 5000 m

We know that the the canal is cuboidal in shape. So,

Volume of canal = l x b x h

= 5000 x 6 x 1.5 m3

= 45000 m3

Now,

Volume of water in canal = Volume of area irrigated

= Area irrigated x Height

So, Area irrigated = 56.25 hectares

∴ Volume of canal = l x b x h

45000 = Area irrigated x 8 cm

45000 = Area irrigated x (8/100)m

Or, Area irrigated = 562500 m= 56.25 hectares.

9. A farmer connects a pipe of internal diameter 20 cm from a canal into a cylindrical tank in her field, which is 10 m in diameter and 2 m deep. If water flows through the pipe at the rate of 3 km/h, in how much time will the tank be filled?

Solution:

Consider the following diagram-

ncert solutions for class 10 maths chapter 13 fig 17

ncert solutions for class 10 maths chapter 13 fig 18

Volume of water that flows in t minutes from pipe = t × 0.5Ï€ m3

Volume of water that flows in t minutes from pipe = t × 0.5Ï€ m3

Radius (r2) of circular end of cylindrical tank =10/2 = 5 m

Depth (h2) of cylindrical tank = 2 m

Let the tank be filled completely in t minutes.

Volume of water filled in tank in t minutes is equal to the volume of water flowed in t minutes from the pipe.

Volume of water that flows in t minutes from pipe = Volume of water in tank

t × 0.5Ï€ = Ï€ × r22 × h2

Or, t = 100 minutes



Class 10 Maths Chapter 13 Exercise: 13.4 (Page No: 257)

1. A drinking glass is in the shape of a frustum of a cone of height 14 cm. The diameters of its two circular ends are 4 cm and 2 cm. Find the capacity of the glass.

Solution:

Radius (r1) of the upper base = 4/2 = 2 cm

Radius (r2) of lower the base = 2/2 = 1 cm

Now, Capacity of glass = Volume of frustum of cone

So, Capacity of glass = (⅓) × Ï€ × h(r12 + r22 +r1r2)

∴ The capacity of the glass = 102 × (⅔) cm3

2. The slant height of a frustum of a cone is 4 cm and the perimeters (circumference) of its circular ends are 18 cm and 6 cm. Find the surface area of the frustum.

Solution:

Given,

Slant height (l) = 4 cm

Circumference of upper circular end of the frustum = 18 cm

∴ 2Ï€r1 = 18

Or, r1 = 9/Ï€

Similarly, circumference of lower end of the frustum = 6 cm

∴ 2Ï€r2 = 6

Or, r2 = 6/Ï€

Now, CSA of frustum = Ï€ (r1 + r2) × l

= Ï€ (9/Ï€ + 6/Ï€) × 4

= 12 × 4 = 48 cm2

3. A fez, the cap used by the Turks, is shaped like the frustum of a cone (see Fig.). If its radius on the open side is 10 cm, radius at the upper base is 4 cm and its slant height is 15 cm, find the area of material used for making it.

ncert solutions for class 10 maths chapter 13 fig 19

Solution:

Given,

For the lower circular end, radius (r1) = 10 cm

For the upper circular end, radius (r2) = 4 cm

Slant height (l) of frustum = 15 cm

Now,

The area of material to be used for making the fez = CSA of frustum + Area of upper circular end

CSA of frustum = Ï€ (r1 + r2) × l

= 210Ï€

And, Area of upper circular end = πr22

= 16Ï€

∴ The area of material used = 710 × (2/7) cm2

4. A container, opened from the top and made up of a metal sheet, is in the form of a frustum of a cone of height 16 cm with radii of its lower and upper ends as 8 cm and 20 cm, respectively. Find the cost of the milk which can completely fill the container, at the rate of Rs. 20 per litre. Also find the cost of metal sheet used to make the container, if it costs Rs. 8 per 100 cm2.

ncert solutions for class 10 maths chapter 13 fig 20

Hence, the total metal that would be required to make container will be = 1758.4 + (Area of bottom circle)

= 1758.4 + 201 = 1959.4 cm2

∴ Total cost of metal = Rs. (8/100) × 1959.4 = Rs. 157

5. A metallic right circular cone 20 cm high and whose vertical angle is 60° is cut into two parts at the middle of its height by a plane parallel to its base. If the frustum so obtained is drawn into a wire of diameter cm, find the length of the wire.

Solution:

The diagram will be as follows

ncert solutions for class 10 maths chapter 13 fig 21

Consider △AEG

ncert solutions for class 10 maths chapter 13 fig 22

Radius (r1) of upper end of frustum = (10√3)/3 cm

Radius (r2) of lower end of container = (20√3)/3 cm

Height (r3) of container = 10 cm

Now,

Volume of the frustum = (⅓) × Ï€ × h(r12 + r22 +r1r2)

ncert solutions for class 10 maths chapter 13 fig 23

Solving this we get,

Volume of the frustum = 22000/9 cm3

The radius (r) of wire = (1/16) × (½) = 1/32 cm

Now,

Let the length of wire be “l”.

Volume of wire = Area of cross-section x Length

= (Ï€r2) x l

= Ï€(1/32)2 x l

Now, Volume of frustum = Volume of wire

22000/9 = (22/7) x (1/32)2 x l

Solving this we get,

l = 7964.44 m


Class 10 Maths Chapter 13 Exercise: 13.5 (Optional) (Page No: 258)

1. A copper wire, 3 mm in diameter, is wound about a cylinder whose length is 12 cm, and diameter 10 cm, so as to cover the curved surface of the cylinder. Find the length and mass of the wire, assuming the density of copper to be 8.88 g per cm3.

Solution:

Given that,

Diameter of cylinder = 10 cm

So, radius of the cylinder (r) 10/2 cm = 5 cm

∴ Length of wire in completely one round = 2Ï€r = 3.14 x 5 cm = 31.4 cm

It is given that diameter of wire = 3 mm = 3/10 cm

∴ The thickness of cylinder covered in one round = 3/10 m

Hence, the number of turns(rounds) of the wire to cover 12 cm will be-

ncert solutions for class 10 maths chapter 13 fig 24

Now, the length of wire required to cover the whole surface = length of wire required to complete 40 rounds

40 x 31.4 cm = 1256 cm

Radius of the wire = 0.3/2 = 0.15 cm

Volume of wire = Area of cross-section of wire × Length of wire

= Ï€(0.15)2 × 1257.14

= 88.898 cm3

We know,

Mass = Volume × Density

= 88.898 × 8.88

= 789.41 gm

2. A right triangle whose sides are 3 cm and 4 cm (other than hypotenuse) is made to revolve about its hypotenuse. Find the volume and surface area of the double cone so formed. (Choose value of π as found appropriate.)

Solution:

Draw the diagram as follows:

ncert solutions for class 10 maths chapter 13 fig 25

Let us consider the △ABA

Here,

AS = 3 cm, AC = 4 cm

So, Hypotenuse BC = 5 cm

We have got 2 cones on the same base AA’ where the radius = DA or DA’

Now, AD/CA = AB/CB

By putting the value of CA, AB and CB we get,

AD = 2/5 cm

We also know,

DB/AB = AB/CB

So, DB = 9/5 cm

As, CD = BC – DB,

CD = 16/5 cm

Now, volume of double cone will be

ncert solutions for class 10 maths chapter 13 fig 26

Solving this we get,

V = 30.14 cm3

The surface area of the double cone wil be

ncert solutions for class 10 maths chapter 13 fig 27

= 52.75 cm2

3. A cistern, internally measuring 150 cm × 120 cm × 100 cm, has 129600 cm3 of water in it. Porous bricks are placed in the water until the cistern is full to the brim. Each brick absorbs one-seventeenth of its own volume of water. How many bricks can be put in without ocerflowing the water, each being 22.5 cm × 7.5 cm × 6.5 cm?

Solution:

Given that the dimension of the cistern = 150 × 120 × 110

So, volume = 1980000 cm3

Volume to be filled in cistern = 1980000 – 129600

= 1850400 cm3

Now, let the number of bricks placed be “n”

So, volume of n bricks will be = n × 22.5 × 7.5 × 6.5

Now as each brick absorbs one-seventeenth of its volume, the volume will be

= n/(17) × (22.5 × 7.5 × 6.5)

For the condition given in the question,

The the volume of n bricks has to be equal to volume absorbed by n bricks + Volume to be filled in cistern

Or, n × 22.5 × 7.5 × 6.5 = 1850400 + n/(17) × (22.5 × 7.5 × 6.5)

Solving this we get,

n = 1792.41

4. In one fortnight of a given month, there was a rainfall of 10 cm in a river valley. If the area of the valley is 97280 km2, show that the total rainfall was approximately equivalent to the addition to the normal water of three rivers each 1072 km long, 75 m wide and 3 m deep.

Solution:

From the question, it is clear that

Total volume of 3 rivers = 3 × [(Surface area of a river) × Depth]

Given,

Surface area of a river = [1072 × (75/1000)] km

And,

Depth = (3/1000) km

Now, volume of 3 rivers = 3 × [1072 × (75/1000)] × (3/1000)

= 0.72 km3

Now, volume of rainfall = total surface area × total height of rain

ncert solutions for class 10 maths chapter 13 fig 28

= 9.7 km3

For the total rainfall was approximately equivalent to the addition to the normal water of three rivers, the volume of rainfall has to be equal to volume of 3 rivers.

But, 9.7 km3 ≠ 0.72 km3

So, the question statement is false.

5. An oil funnel made of tin sheet consists of a 10 cm long cylindrical portion attached to a frustum of a cone. If the total height is 22 cm, diameter of the cylindrical portion is 8 cm and the diameter of the top of the funnel is 18 cm, find the area of the tin sheet required to make the funnel (see Fig.).

ncert solutions for class 10 maths chapter 13 fig 29

Solution:

Given,

Diameter of upper circular end of frustum part = 18 cm

So, radius (r1) = 9 cm

Now, the radius of the lower circular end of frustum (r2) will be equal to the radius of the circular end of the cylinder

So, r2 = 8/2= 4 cm

Now, height (h1) of the frustum section = 22 – 10 = 12 cm

And,

Height (h2) of cylindrical section = 10 cm (given)

Now, the slant height will be-

ncert solutions for class 10 maths chapter 13 fig 30

Or, l = 13 cm

Area of tin sheet required = CSA of frustum part + CSA of cylindrical part

= Ï€(r1 + r2)l + 2Ï€r2h2

Solving this we get,

Area of tin sheet required = 782 × (4/7) cm2

6. Derive the formula for the curved surface area and total surface area of the frustum of a cone, given to you in Section 13.5, using the symbols as explained.

Solution:

Consider the diagram

ncert solutions for class 10 maths chapter 13 fig 31

Let ABC be a cone. From the cone the frustum DECB is cut by a plane parallel to its base. Here, r1 and r2 are the radii of the frustum ends of the cone and h be the frustum height.

Now, consider the ΔABG and ΔADF,

Here, DF||BG

So, ΔABG ~ ΔADF

ncert solutions for class 10 maths chapter 13 fig 32

Now, by rearranging we get,

ncert solutions for class 10 maths chapter 13 fig 33

The total surface area of frustum will be equal to the total CSA ot frustum + the area ol upper circular end + area of the lower circular end

= Ï€(r1 + r2)l + Ï€r22 + Ï€r12

∴ Surface area of frustum = Ï€[r1 + r2)l + r12 + r22]

7. Derive the formula for the volume of the frustum of a cone.

Solution:

Consider the same diagram as the previous question.

ncert solutions for class 10 maths chapter 13 fig 34

Now, approach the question in the same way as the previous one and prove that

ΔABG ~ ΔADF

Again,

ncert solutions for class 10 maths chapter 13 fig 35

Now, rearrange them in terms of h and h1

ncert solutions for class 10 maths chapter 13 fig 36

The total volume of frustum of the cone will be = Volume of cone ABC – Volume of cone ADE

= (⅓)Ï€r12h1 – (⅓)Ï€r22(h1 – h)

= (Ï€/3)[r12h1 – r22(h1 – h)]

ncert solutions for class 10 maths chapter 13 fig 37

Now, solving this we get,

∴ Volume of frustum of the cone = (⅓)Ï€h(r12 + r22 + r1r2)



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