Advertisements
Advertisements
प्रश्न
A manufacturing company prepares spherical ball bearings, each of radius 7 mm and mass 4 gm. These ball bearings are packed into boxes. Each box can have a maximum of 2156 cm3 of ball bearings. Find the:
- maximum number of ball bearings that each box can have.
- mass of each box of ball bearings in kg.
(Use π = `22/7`)
Advertisements
उत्तर
Given: Radius = 7 mm = 0.7 cm = `7/10` cm ....(since 1 cm = 10 mm)
Volume of bearings per box = 2156 cm3
Mass of one bearing = 4 g
π = `22/7`
a. Maximum number of ball bearings:
Volume of one ball = `4/3πr^3`
= `4/3 xx 22/7 xx (7/10)^3`
No. of balls = `2156/(4/3 xx 22/7 xx (7/10)^3)`
= `(2156 xx 3 xx 10^3)/(4 xx 22 xx 7^2)`
= `(2156 xx 3000)/(4312)`
= 1500
b. Mass of each box of ball bearings:
Total mass = 1500 × 4 g
= 6000 g
= 6 kg
संबंधित प्रश्न
Find the surface area of a sphere of diameter 21 cm.
`["Assume "pi=22/7]`
Find the total surface area of a hemisphere of radius 10 cm. [Use π = 3.14]
Find the surface area of a sphere of diameter 3.5 cm.
A solid sphere of radius 15 cm is melted and recast into solid right circular cones of radius 2.5 cm and height 8 cm. Calculate the number of cones recast.
A largest sphere is to be carved out of a right circular cylinder of radius 7 cm and height 14 cm. Find the volume of the sphere.
Determine the ratio of the volume of a cube to that of a sphere which will exactly fit inside the cube.
If the ratio of volumes of two spheres is 1 : 8, then the ratio of their surface areas is
A hemispherical and a conical hole is scooped out of a.solid wooden cylinder. Find the volume of the remaining solid where the measurements are as follows:
The height of the solid cylinder is 7 cm, radius of each of hemisphere, cone and cylinder is 3 cm. Height of cone is 3 cm.
Give your answer correct to the nearest whole number.Taken`pi = 22/7`.
The model of a building is constructed with the scale factor 1 : 30.
(i) If the height of the model is 80 cm, find the actual height of the building in meters.
(ii) If the actual volume of a tank at the top of the building is 27m3, find the volume of the tank on the top of the model.
Find the surface area and volume of sphere of the following radius. (π = 3.14 )
9 cm
