Q5. A container shaped like 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 hemisperical shape on the top .Find the number of such cones which can be filled with ice-cream. [Most Important]

Solution.

We are given diameter of right circular cylinder= 12 cm,so radius,r = 12/2 = 6 cm

Height of the cylinder ,h =15 cm

Volume of cylinder = πr²h = π(6)²15 =540π cm³

The volume of ice-cream = Volume of cone + Volume of hemisphere

The height,h of the cone =12 cm and radius of cone and hemisphere,r= 6/2= 3 cm

Volume of cone =   

= 3π ×12 = 36π

Volume of hemisphere =   

= 2π× 9 = 18π

∴ The volume of ice-cream = 36π + 18π =54 π cm³

Number of ice-cream cones to be filled

Hence the number of cones to be filled are 10

Q6.How many silver coins, 1.75 cm in diameter and of thickness 2 mm,must be meted to form a cuboid of dimensions 5.5 cm × 10 cm × 3.5 cm? [Important]

Solution. Let number of coins to be formed = n

Radius of coins,r = 1.75/2 = 0.875 cm and thickness,h=2 mm = 0.2 cm

Volume of coin = πr²h

=4.4 × 0.125×0.875=0.48125 cm³

Volume of cuboid = Length× Breadth ×Height =5.5 cm × 10 cm × 3.5 cm =192.5 cm³

Number of coins to be melted

= 400

Hence the number of coins to be melted are 400

Q7. 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 conical heap is 24 cm,find the radius and slant height of the heap. [Very Important]

Solution. The volume of the bucket = Volume of conical heap

We are given the height of the cylindrical bucket,h = 32 cm and radius of base, = 18 cm

Volume of cylndrical bucket = πr²h = π(18)²32

The height of conical heap =24 cm

Volume of conical heap =   

The volume of the bucket = Volume of conical heap

r² = (18 ×18× 4)

r²=9 ×2×9×2×4

r = 9×2×2= 36 cm

Hence radius of the conical heap = 36 cm

Slant height of the conical heap,l =√(r² +h²) = √(36² + 24²)=√(1296 +576)=√(1872)=12√13 cm

Q8.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? [Most Important]

Solution. Let area to be irrigated A in time 30 minutes=30 ×60=1800 seconds

Standing water in the area= 8 cm= o.08 m

We are given width of canal is =6 m and depth=1.5 m

The speed of water =10 km/h = (10×1000)/(60×60) =25/9 m/s

Volume of water flowed in the area in per second =Width ×Depth ×Speed of water=6×1.5×25/9=2×0.5×25=25 m³/s

In 30 minutes (1800 s) the water flowed in the area =25 ×1800=45000 m³

The volume of standing water in 30 minutes = A×h =0.08 A

0.08 A = 45000

A = 45000/0.08= 562500 m²

Q9.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? [Most Important]

Solution. We are given the diameter of the pipe = 20 cm = 0.20 m, so its radius =.20/2=0.10 m

The speed of water in the pipe = 3 km/h = 3000/(60×60) =3000/3600=(5/6) m/s

The volume of water flowed per second through the pipe=πr²h=π(0.10)²×5/6=0.05π/6 m³/s

The diameter of cylindrical tank = 10 m,so its radius =10/2= 5m

Depth(h) of the tank = 2 m

Volume of the tank =πr²h =π(5²)×2= 50π m³

Time taken by the pipe in filling the tank =(Volume of tank)/(Volume of water flowed per second inside the pipe) = 50π /(0.05π/6) =300/0.05= 6000 seconds=100 minutes= 1h 40 minutes