An iron ball o fradius 1 m and density ...

An iron ball o fradius 1 m and density `8000 kg m^(-3)` is placed in water . A bubble of radius 1 cm at a distance 1.5 m from the centre of the ball . Will there be a force of attraction or repulsion between them and what will be the magnitude of this force ? (Neglect the mass of air and take ` G=6.67 xx 10^(-11)`.)

Text Solution

Verified by Experts

The correct Answer is:

`3.7 xx 10 ^(-9) N`

Topper's Solved these Questions

GRAVITATION
NN GHOSH|Exercise EXERCISE|29 Videos
FRICTION, WORK POWER AND ENERGY
NN GHOSH|Exercise Exercises (B)|36 Videos
HYDRODYNAMICS
NN GHOSH|Exercise EXERCISES|19 Videos

Similar Questions

Explore conceptually related problems

Two long parallel wires are at a distance of 1 m. Both of them carry 1A of current. The force of attraction per unit length between the two wires is

A 0.5 kg ball moves in a circle of radius 0.4 m at a velocity of 4 m/s. The centripetal force on the ball is

A shell of mass M and radius R has another point mass m placed at a distance r from its centre (r gt R) . The force of attraction between the shell and point mass is :

A uniform ring of mass m is lying at a distance sqrt(3) a from the centre of mass M just over the sphere (where a is the radius of the ring as well as that of the sphere). Find the magnitude of gravitational force between them .

A particle of mass 1kg is placed at a distance of 4m from the centre and on the axis of a uniform ring mass 5kg and radius 3m . The work done to increase the distance of the particle from 4m to 3sqrt(3) m is

Two equal charges are placed at a separtion of 1.0 m. What should be the magnitude of the charges so that the force between them equals of a 50 kg person?

Two conducting spheres of radii 3 cm and 1 m are separated by a distance of 10 cm in free space. If the spheres are charged to same potential of 10 V each, then the force of repulsion between them is

The force of attraction between two balls each of mass 1 kg when their centres are 10 cm apart is ……..

NN GHOSH-GRAVITATION-EXERCISE

A man can jump vertically to a height of 1.5 m on the earth. Calculate...
Text Solution
|
A body weights 20 kg on the surface of the earth . What will be its i...
Text Solution
|
Find the self gravitationl potential of (a) a thin unifrom spherica...
Text Solution
|
A projectile is fired vertically from the earth's surface with an init...
Text Solution
|
A short , straight and frictinless tunnel is bored through the centr...
Text Solution
|
Two particle of mass m and M are initially at rest at inifinte ...
Text Solution
|
Three identical particles each of mass "m" are arranged at the corner...
Text Solution
|
An iron ball o fradius 1 m and density 8000 kg m^(-3) is placed in ...
Text Solution
|
A particles is fired vertically from the surface of the earth with a...
Text Solution
|
Calculate the pressure caused by gravitational copmression at the cen...
Text Solution
|
A planet of mass moves alng an ellipes around the sun so that i...
Text Solution
|
In a double star, two stars (one of mass m and the other of mass 2m) d...
Text Solution
|
Two satellites A and B of equal mass move in the equatorial plane of t...
Text Solution
|
Three masses ,100kg 200kg and 500 kg are placed at the vetices of an ...
Text Solution
|
Two satellites of the earth move in the sme plane with radii a and b,b...
Text Solution
|
A body is projected horizontally near the surface of the earth with sq...
Text Solution
|
Calculate the distance from the surface of the earth at which the acc...
Text Solution
|
Find the gravitatinal force of between a point mass m placed at a disa...
Text Solution
|
An artificial satellite (mass m) of a planet (mass M) revolves in a ci...
Text Solution
|
Calcualte the third cosmic veocity i.e the velocity relative to the Ea...
Text Solution
|