Ans:
Here, the height of small cylinder (h1) = 50 cm
Radius of small cylinder r = 7 cm
Height of longer cylinder (h2) = 200 cm
Radius of longer cylinder (R) = 14 cm
Volume of figure = Volume of small cylinder + volume of big cylinder
Mass = Volume × Density
= 10,47,200 g
≈ 1047.2 kg
Q2: 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 4 mm, find its surface area. Also, find its volume. (CBSE 2024)
Ans:
Here, two figures are combined, 2 hemisphere and cylinder.
Radius of cylinder = radius of hemisphere
= 4/2 = 2 mm
Height of cylinder (h) = 14 – (2 + 2)
= 14 – 4 = 10 mm.
Surface area of capsule = curved surface area of two hemispheres + curved surface area of cylinder
Volume of capsule = volume of 2 hemisphere + volume of cylinder
[∵ Volume of 2 hemisphere = volume of a sphere]
Ans: (c)
We have, the height of cone. h = 24 cm and radius, r = 7 cm.
We know that,
=
= √625
= 25
Now. curved surface area = πrl
= 22/7 x 7 x 25
= 550 cm2
Q4: The curved surface area of a cylinder of height 5 cm is 94.2 cm2. The radius of the cylinder is (Take π = 3.14) (2023)
(a) 2 cm
(b) 3 cm
(c) 2.9 cm
(d) 6 cm
Ans: (b)
Curved surface area of cylinder = 2πrh
⇒ 94.2 = 2 x 3 .14 x r x 5
⇒ r = 3 cm
Q5: A wooden article was made by scooping out a hemisphere from each end of a solid cylinder, as shown in the figure. If the height of five cylinder is 10 cm and its base is of radius 3.5 cm.
Find the total surface area of the article. (CBSE 2023)
Ans:
Radius of the cylinder (r) = 3.5 cm
Height of the cylinder (h) = 10 cm
Curved surface area = 2πrh
=
= 220 cm2
Curved surface area of a hemisphere = 2πr2
∴ Curved surface area of both hemispheres
=
= 154 cm2
Total surface area of the Article
= (220 + 154) cm2
= 374 cm2.
Q6: A room is in the form of a cylinder surmounted by a hemispherical dome. The base radius of the hemisphere is one-half the height of the cylindrical part. Find the total height of the room if it contains (2023)
Ans: Let r be the radius and h be the height of the cylindrical part and R be the radius of hemispherical part
volume of air = volume of cylinder = 1408/21
∴
Now, volume of air =
⇒ h = 4
Now, radius of hemispherical part R = 1/2h = 2m
∴ Total height of the room = R + h = 2 + 4 = 6m
Q7: An empty cone is of radius 3 cm and height 12 cm. Ice-cream is filled in it so that lower part of the cone which is (1/6)th of the volume of the cone is unfilled but hemisphere is formed on the top. Find volume of the ice-cream. Take (π = 3.14) (2023)
Ans: Radius of cone, r = 3 cm
Height of cone, h = 12 cm
Let x be the volume of unfilled part of cone.
Now, volume of cone, =
Volume of filled part of cone = Volume of cone - Volume of unfilled part of cone
Now, volume of ice-cream = volume of filled part of cone + volume of hemisphere
=
= 150.72 cm3
Ans: Given ratio of radium and height of the right circular cylinder = 2:3
Let radius (r) of the base be 2x and height(h) be 3x.
Volume of cylinder, V = πr2h
Total surface area of cylinder = 2πr (h + r)
= 770 cm2
Q9: Case Study : John planned a birthday party for his younger sister with his friends. They decided to make some birthday caps by themselves and to buy a cake from a bakery shop. For these two items they decided the following dimensions:
Cap : Conical shape with base circumference 44 cm and height 24 cm.
Cake : Cylindrical shape with diameter 24 cm and height 14 cm.
Based on the above information answer the following questions.
(a) How many square cm paper would be used to make 4 such caps?
(b) The bakery shop sells cakes by weight (0.5 kg, 1 kg, 1.5 kg. etc..}. To have the required dimensions how much cake should they order if 650 cm3 equals 100 g of cake? (2022)
Ans: Paper required to make four caps is 2,200 sq.cm.
Weight of the cake for required dimensions is 1kg.
Step-by-step explanation:
(a) Given the base circumference of the cone, c = 44 cm
Height of a cone, h = 24 cm.
Base circumference of the cone, c = 2πr = 44 cm
Thus, the radius of the cone is
The curved surface area of the cone is given by
Substituting the values of h and r,
Thus, to make one cap, 550 sq.cm of paper is required.
Then to make four caps, the required paper is
500 x 4 = 2000 sq. cm
Therefore, 2,200 sq.cm of paper is required to make four caps.
(b) Given the diameter of cylindrical shape cake, d = 24 cm
Height of cylindrical shape cake, h = 14 cm.
Radius of the cylindrical shape cake,
Volume of the cylinder is given byV = πr2h
Substituting the values of h and r,
The required volume of the cylindrical shape cake is 6,336 cu.cm.
Given 650 cu.cm equals 100 g of cake.
Then the required weight of the cake is
Given the bakery shop sells cakes by weight of 0.5 kg, 1 kg, 1.5 kg, etc.
Since, ,therefore, the cake of 1kg should be ordered for required dimensions.
Q10: Three cubes of side 6 cm each, are joined as shown in given figure. Find the total surface area of the resulting cuboid. (2022)
Ans: The dimension of the cuboids so formed are
length = 18 cm
breath = 6 cm and height = 6 cm.
Surface area of cuboids = 2 (l× b + b × h + l × h)
= 2 × (18 × 6 + 6 × 6+ 18 × 6)
= 504 cm2
Q11: Case Study : A 'circus' is a company of performers who put on shows of acrobats, downs etc to entertain people started around 250 years back, in open fields, now generally performed in tents. One such 'Circus Tent is shown below.The tent is in the shape of a cylinder surmounted by a conical top. If the height and diameter of cylindrical part are 9 m and 30 m respectively and height of conical part is 8 m with same diameter as that of the cylindrical part, then
find
(i) the area of the canvas used in making the tent.
(ii) the cost of the canvas bought for the tent at the rate Rs. 200 per sq. m. if 30 sq. m canvas was wasted during stitching. (CBSE Term-2 2022)
Ans: According to given information, we have the following figure.
Clearly, the radius of conical part = radius of cylindrical part = 30/2 = 15 m = r ...(say)
Let h and H be the height of conical and cylindrical part respectively.
Then h = 8 m and H = 9 m
= 17 m
(i) The area of the canvas used in making the tent
= Curved surface area of cone + Curved surface area of cylinder
= πrl + 2πrH
= πr(l + 2H)
= 1650 m2
(ii) Area of canvas bought for the tent
= (1650 + 30) m2
= 1680 m2
Now, this cost of the canvas height for the tent
= ₹ (1680 × 200)
= ₹ 3,36,000
Ans: Given diameter of circular pipe = 8 cm
So, radius of circular pipe = 4cm
Length of flow of water in one sec = 80 cm
length of flow of water in one hour = 80 x 60 x 60 cm=288000 cm=h
Volume of cylinderical pipe in one hour = πr2h
= 14482.28 litre [approx.]
14482.28 litres of water being pumped out through this pipe in 1 hr.
Ans: (d)
Diameter of sphere = Distance between opposite faces of cube = 2a
radius of sphere = a
So, volume of spherical ball =
=
Q14: The radius of a sphere (in cm) whose volume is 12 πcm3, is (2020)
(a) 3
(b) 3√3
(c) 32/3
(d) 31/3
Ans: (c)
Let radius of the sphere be r.
According to the question,
⇒
Q15: Two cones have their heights in the ratio 1: 3 and radii in the ratio 3 : 1 . What is the ratio of their volumes? (2020)
Ans: Let height of one cone be h and height of another cone be 3h. Radius, of one cone is 3r and radius of another cone is r.
∴ Ratio o f their volumes =
= 3 : 1
Q16: How many cubes of side 2 cm can be made from a solid cube of side 10 cm? (2020)
Ans: Let n be the number of solid cubes of 2cm made from a solid cube of side 10 cm.
∴ n x Volume of one small cube = Volume of big cube
⇒ n x (2)3 = (10)3
⇒ 8n = 1000
⇒ n = 1000/8
= 125
Thus, the number of solid cubes formed of side 2 cm each is 125.
Q17: A cone and a cylinder have the same radii but the height of the cone is 3 times that of the cylinder. Find the ratio of their volumes. (CBSE 2020)
Ans: Let the radius and the height of the cylinder are r and h respectively.
So, radios of t he cone is r and height of the cone is 3h.
∴ Volume of the cylinder = πr2h
So Volume of cone =
So, require ratio =
= 1 : 1
Q18: 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 a platform. Find the height of the platform. (Take π = 22/7) (2020)
Ans: Given that, the depth of the well is 14 m and the diameter is 3 m.
The width of the circular ring of the embankment is 4 m.
A figure is drawn below to visualize the shapes.
From the above figure, we can observe that the shape of the well will be cylindrical, and earth evenly spread out to form an embankment around the well in a circular ring will be cylindrical in shape (Hollow cylinder) having outer and inner radius.
Volume of the earth taken out from well = Volume of the earth used to form the embankment
Hence, Volume of the cylindrical well = Volume of the hollow cylindrical embankment
Let us find the volume of the hollow cylindrical embankment by subtracting volume of inner cylinder from volume of the outer cylinder.
Volume of the cylinder = πr2h where r and h are the radius and height of the cylinder respectively.
Depth of the cylindrical well, = h₁ = 14 m
Radius of the cylindrical well, = r = 3/2 m = 1.5 m
Width of embankment = 4 m
Inner radius of the embankment, r = 3/2 m = 1.5 m
Outer radius of the embankment, R = Inner radius + Width
R = 1.5 m + 4 m
= 5.5 m
Let the height of embankment be h
Volume of the cylindrical well = Volume of the hollow cylindrical embankment
πr2h1 = πR2h - πr2h
πr2h1 = πh (R2 - r2)
r2h1 = h (R - r )(R + r)
h = [(r2h1)/(R - r)(R + r)]
h = [((1.5 m)2 × 14 m)/(5.5 m - 1.5 m)(5.5 m + 1.5 m)]
= (2.25 m2 × 14 m)/(4m × 7 m)
= 1.125 m
Therefore, the height of the embankment will be 1.125 m.
Q19: In Figure-4, a solid toy is in the form of a hemisphere surmounted by a right circular cone. The height of the cone is 2 cm and the diameter of the base is 4 cm. Deter mine the volume of the toy. [Take π = 3.14] (2020)
Ans: Given diameter of conical part = Diameter of hemispherical part = 4cm
∴ Radios of conical part (r) = Radius of hemispherical part (r) = 4/2 = 2 cm
Height of conical part (h) = 2 cm
∴ Volume of toy = Volume of hemisphere + volume of cone
= 3 .14 x 4(1.33 + 0.66)= 3.14 x 4 x 1.99 cm3
Volume of the toy = 24.99 cm3
Q20: A solid toy is in the form of a hemisphere surmounted by a right circular cone of same radius. The height of the cone is 10 cm and the radius of the base is 7 cm. Determine the volume of the toy. Also find the area of the coloured sheet required to cover the toy. (Use π = 22/7 and √149 = 12.2) (2020)
Ans: Radius of the cone = Radius of the hemisphere = r = 7cm
Height of the cone, h = 10 cm
Now, volume of the toy = volume of hemisphere + volume of cone
=
= 1232 cm3
Curved surface area of the toy = Curved surface area of cone + Curved surface area of hemisphere
= πrl + 2πr2
= 22(12.2 + 14)
= 22 x 26.2
= 576.4 cm3
Q21: From a solid right circular cylinder of height 14 cm and base radius 6 cm, a right circular cone of same height and same base radius is removed. Find the volume of the remaining solid. (CBSE 2020)
Ans: Radius of cylinder = Radius of cone = r = 6 cm.
Height of cylinder = Height of cone = h = 14 cm
Volume of remaining solid = πr2h – 1/3πr2h
= 2/3πr2h
= 2/3 x 22/7 x 6 x 6 x 14
= 2 x 22 x 2 x 6 x 2
= 1056cm2
Hence, the volume of the remaining solid is 1056 cm2.
Q22: A solid is in the form of a cylinder with hemispherical ends. The total height of the solid is 20 cm and the diameter of the cylinder is 7 cm. Find the total volume of the solid. (Use π = 22/7). (2019)
Ans: Radius of cylinderical part (r) = Radius of each spherical part(r) = 7/2 cm
Height of cylinderical part (h) = 20 - 7/2 - 7/2 = 13 cm
Now. Volume of the solid = Volume of cylinderical part + Volume of two hemispherical endsVolume of the solid =
Volume of the solid = 680.17 cm3.
Q23: A juice seller was serving his customers r using glasses as shown in the given figure. The inner diameter of the cylindrical glass was 5 cm but bottom of the glass had a hemispherical raised portion which reduced the capacity of the glass. lf the height of the glass was 10 cm, find the apparent and actual capacity of the glass {Use π = 3.14) (2019)
Ans: Base radius = 5/2 = 2.5 cm
Apparent capacity of glass = Volume of cylindrical portion
= πr2h
= 3.14 x (2.5)2 x 10
= 196.25 cm3
Actual capacity of the glass = Volume of cylinder - Volume of hemisphere
= 196.25 - 32.71
= 163.54 cm3
Q24: A solid is in the form of a cylinder with hemispherical ends. The total height of the solid is 20 cm and the diameter of the cylinder is 7 cm. Find the total volume of the solid, (use π = 22/7) [Allahabad 2019]
View AnswerAns: Diameter of cylinder
= diameter of the hemisphere = 7 cm
∴ Radius of cylinder = 7/2 cm
Total height of the solid = 20 cm
Height of the cylinder
Volume of the solid
= volume of the cylinder + 2 x volume of one hemisphere
Q25: A bucket open at the top is in the form of a frustum of a cone with a capacity of 12308.8 cm3. The radii of the top and bottom of circular ends of the bucket are 20 cm and 12 cm respectively. Find the height of the bucket and also the area of the metal sheet used in making it. (Use π = 3.14) [CBSE 2019 (30/1/2)]
Ans: r = 12 cm, R = 20 cm, V = 12308.8 cm3
Area of metal sheet used = π(R + r)l + πr2
= π(20 + 12) x 17 + π x 144
Hence, the height of the bucket is 15 cm and the area of the metal sheet used is 2160.32 cm2.
Q26: An open metal bucket is in the shape of a frustum of a cone, mounted on a hollow cylindrical base made of the same metallic sheet (Fig. 13.37). The diameters of the two circular ends of the bucket are 45 cm and 25 cm, the total vertical height of the bucket is 40 cm and that of the cylindrical base is 6 cm. Find the area of the metallic sheet used to make the bucket, where we do not take into account the handle of the bucket. Also, find the volume of water the bucket can hold. [CBSE 2019(30/5/1)]
View AnswerAns: The total height of the bucket = 40 cm, which includes the height of the base. So, the height of the frustum of the cone = (40 - 6) cm = 34 cm.
Therefore, the slant height of the frustum,
So,
Area of the metallic sheet used
Curved surface area of frustum of cone + Area of circular base + Curved surface area of cylinder
= [π x 35.44 (22.5 + 12.5) + π x (12.5)2 + 2π x 12.5 x 6] cm2
= 4860.9 cm2
Now, the volume of water that the bucket can hold (also, known as the capacity of the bucket)
Q27: A cylindrical bucket, 32 cm high and with a 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.
OR
A girl empties a cylindrical bucket, full of sand, of base radius 18 cm and height 32 cm, on the floor to form a conical heap of sand. If the height of this conical heap is 24 cm, then find its slant height correct up to one place of decimal. [CBSE (E) 2014, 2019 (30/5/1)]
Ans: We have,
Radius of cylindrical bucket =18 cm
Height of cylindrical bucket = 32 cm
And the height of conical heap = 24 cm
Let the radius of the conical heap be r cm
Volume of the sand = volume of the cylindrical bucket
= πr2h = π x (18)2 x 32
Now, volume of conical heap
Here, volume of the conical heap will be equal to the volume of sand
∴ 8πr2 = π x (18)2 x 32
⇒ r2 = 18 x 18 x 4 = (18)2 x (2)2
⇒ r2 = (36)2 or r = 36 cm
Ans: For bucket,
Upper diameter (D) = 30 cm
∴
Lower diameter (d) = 10 cm
Height of bucket (h) = 24 cm
∴ The area of the metal sheet used = CSA of the frustum (bucket) + Area of bottom part (base)
Ans: Let VAB be the metallic right circular cone of height 20 cm. Suppose this cone is cut by a plane parallel to its base at a point O' such that VO' = O' O i.e., O' is the midpoint of VO.
Let r1 and r2 be the radii of circular ends of the frustum ABB' A'.
Now, in ΔVOA and VO' A', we have
⇒
⇒
∴ Volume of the frustum =
Let the length of wire of diameter 1/16 cm be l cm. Then,
Volume of metal used in wire
Since the frustum is recast into a wire of length l cm and diameter 1/16 cm.
∴ Volume of the metal used in wire = volume of the frustum
⇒
⇒
Q30: A solid metallic cylinder of diameter 12 cm and height 15 cm is melted and recast into toys each in the shape of a cone of radius 3 cm and height 9 cm. Find the number of toys so formed. [AI 2017 (C)]
Ans: Diameter of metallic cylinder = 12 cm
∴ Radius of metallic cylinder (r) = 6 cm
Height (h) = 15 cm
Volume of cylinder = πr2h = π(6)2 x 15 cm3
Radius of cone = 3 cm
Height of cone = 9 cm
Volume of cone = 1/3 π(3)2 x 9 = 3 x 9π cm3
Number of toys so formed =
If the question is “A tent is in the form of a cylinder surmounted by a cone. Find the capacity of the tent and the cost of canvas for making the tent at Rs 100 per sq.m.”, then the solution is given as “Tent is a combination of a cylinder and a cone. For capacity
∴ Volume (capacity) of the tent = Volume of the cylindrical part + Volume of the conical part
For the cost of the canvas, we find the total surface area.
Total surface area = Curved area of the cylindrical part + Curved surface area of the conical part
Now, proceed to find its cost.”
Note: Don’t solve as “Total surface area of canvas = Total surface area of cylinder + Total surface area of a cone and proceed further"
This is the wrong solution.
Q31: The 3/4th part of a conical vessel of internal radius 5 cm and height 24 cm is full of water. The water is emptied into a cylindrical vessel with an internal radius of 10 cm. Find the height of water in a cylindrical vessel. [Delhi 2017]
Ans: Radius of conical vessel (r) = 5 cm
Height of conical vessel (h) = 24 cm
Radius of cylindrical vessel (R) = 10 cm
Let H be the height of water in the cylindrical vessel Now, the total volume of the conical vessel
According to the question,
3/4 of the volume of water from the conical vessel is emptied into the cylindrical vessel.
⇒ 3/4 x Volume of conical vessel =Volume of water in the cylindrical vessel.
⇒ 25 x 6 = 10 x 10 x H
⇒
⇒ H = 1.5 cm
∴ Height of water in the cylindrical vessel = 1.5 cm
Q32: In a rain-water harvesting system, the rainwater from a roof of 22 m x 20 m drains into a cylindrical tank having a diameter of base 2 m and height of 3.5 m. If the tank is full, find the rainfall in cm. [AI 2017]
Ans: Length of roof (l) = 22 m
Breadth of roof (b) = 20 m
Let the height of water column collected on roof= hm
∴ Volume of standing water on rooftop = lbh
= (22 x 20 x h) m3
This water is taken into a cylindrical tank of diameter of base 2 m and height 3.5 m.
Tank gets completely filled with this amount of water.
⇒ Volume of water from roof-top = Volume of cylinder
Diameter of tank = 2 m
∴ Radius of tank = 2/2 = 1 m
Hence rainfall is 2.5 cm.
Q33: 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. [CBSE (AI) 2017]
Ans: We have,
Radius of the cylinder = Height of the cylinder = 2.4 cm
Also, radius of the cone = 0.7 cm and height of the cone = 2.4 cm
Now, slant height of the cone =
∴ Total surface area of the remaining solid
= curved surface area of cylinder + curved surface area of the cone + area of upper circular base of the cylinder.
Q34: A circus tent is in the shape of a cylinder surmounted by a conical top of the same diameter. If their common diameter is 56 m, the height of the cylindrical part is 6 m and the total height of the tent above the ground is 27 m, find the area of canvas used in making the tent. (CBSE 2017)
Ans:
Diameter of conical and cylindrical parts
(d) = 56 cm
Radius of conical and cylindrical part
(r) = 28 m
Height of cylindrical part
(h) = 6 m Total height of tent = 27 m
Height of conical part (h’) = 27 – 6 = 21 m
Slant height of conical part,
Ans: Volume of sphere = 4/3 π(6)3 cm3
Volume of water rise in cylinder =
∴
⇒ r = 9 cm
Ans: Volume of the smaller sphere
Volume of smaller sphere x density = mass
∴ 36π (density of metal) = 1
Density of metal = 1/36π
∴ Volume of bigger sphere x density = mass
Volume of new sphere = volume of smaller sphere + volume of bigger sphere
(R')3 = [33 + 7 x 33]
(R')3 = 33(l + 7)
(R')3 = 33 x 8
(R')3 = 33 x 23
R' =3 x 2
R' = 6 cm
∴ Diameter of new sphere =12 cm.
Q37: A hemispherical bowl of internal diameter 36 cm contains liquid. This liquid is filled into 72 cylindrical bottles of diameter 6 cm. Find the height of each bottle, if 10% liquid is wasted in this transfer. [CBSE (AI) 2015]
Ans: Radius of hemispherical bowl, R = 36/2 = 18 cm
Radius of cylindrical bottle, r = 6/2 = 3 cm
Let height of cylindrical bottle = h
Since 10% liquid is wasted, therefore only 90% liquid is filled into 72 cylindrical bottles.
∴ The volume of 72 cylindrical bottles = 90% of the volume in the bowl
⇒
Q38: In Fig. a cone of radius 10 cm is divided into two parts by drawing a plane through the mid-point of its axis, parallel to its base. Compare the volumes of the two parts. [CBSE (AI) 2015]
View AnswerAns: Let.BC = r cm, DE = 10 cm
Since B is the mid-point of AD and BC is parallel to DE, therefore C is the mid-point of AE.
∴ AC = CE
Also, ΔABC ~ ΔADE
∴ The required ratio = 1 : 7.
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