Two solid sphere of same size of a metal...

Two solid sphere of same size of a metal are placed in contact by touching each other prove that the gravitational force acting between then is directly proportional to the fourth power of their radius.

Text Solution

Verified by Experts

The weight of the spheres may be assumed to be concentrated at their centres.
So `F=(G[4/3 pi R^(3) rho]xx[4/3 pi R^(3) rho])/((2R)^(2))=4/9 (Gpi^(2) rho^(2))R^(4)`
`:. F prop R^(4)`

Topper's Solved these Questions

GRAVITATION
ALLEN|Exercise BOX-1|3 Videos
GRAVITATION
ALLEN|Exercise BOX-2|13 Videos
GRAVITATION
ALLEN|Exercise Exercise 5 B (Previous Year Questions)|9 Videos
GEOMETRICAL OPTICS
ALLEN|Exercise subjective|14 Videos
KINEMATICS-2D
ALLEN|Exercise Exercise (O-2)|46 Videos

Similar Questions

Explore conceptually related problems

Spheres of the same material and same radius r are touching each other. Show that gravitational force between them is directly proportional to r^(4) .

Two spheres of the same material and same radius r are touching each other. If the gravitational force of attraction between them is directly proportional to r^n , then the value of n is :

Two uniform solid spheres of same materical and same radius are touching each other density is 'rho' then find out gravitational force between them .

Two identical spheres of radius R made of the same material are kept at a distance d apart. Then the gravitational attraction between them is proportional to

Two balls, each of radius R, equal mass and density are placed in contact, then the force of gravitation between them is proportional to

Two identical copper spheres of radius R are in contact with each other. If the gravitational attraction between them is F , find the relation between F and R .

Two spherical balls of mass 10 kg each are placed 10 cm apart. Find the gravitational force of attraction between them.

Two spherical balls of mass 10 kg each are placed 100 m apart. Find the gravitational force of attraction between them.

ALLEN-GRAVITATION-Illustration

Two paricles of equal mass m go round a circle of radius R under the a...
Text Solution
|
Three particles each of mass m, are located at the vertices of an equi...
Text Solution
|
Two solid sphere of same size of a metal are placed in contact by touc...
Text Solution
|
A mass M is split into two parts m and (M – m ) , which are then separ...
Text Solution
|
Infinite particles each of mass 'M' are placed at positions x=1 m, x=2...
Text Solution
|
At which depth from Earth surface, acceleration due to gravity is decr...
Text Solution
|
Which of the following statement are true about acceleration due to gr...
Text Solution
|
A what height above the Earth's surface the acceleration due to gravit...
Text Solution
|
Determine the speed with which the earth would have to rotate on its a...
Text Solution
|
Draw a rough sketch of the variation in weight of a spacecraft which m...
Text Solution
|
A solid sphere of uniform density and radius R applies a gravitational...
Text Solution
|
The maximum vertical distance through which an astronaut can jump on t...
Text Solution
|
Three solid sphere of mass M and radius R are placed in contact as sho...
Text Solution
|
Four bodies each of mass m are placed at the different corners of a sq...
Text Solution
|
A body of mass m is placed on the surface of earth Find work required ...
Text Solution
|
if velocity given to an object from the surface of the earth is n time...
Text Solution
|
a narrow tunnel is dug along the diameter of the earth, and a particle...
Text Solution
|
The escape velocity for a planet from the surface is v(e). A particle ...
Text Solution
|
A particle is projected vertically upwards from the surface of the ear...
Text Solution
|
A mass of 6xx10^24 kg (equal to the mass of the earth) is to be compre...
Text Solution
|