A ring of radius R is made from a thin w...

A ring of radius R is made from a thin wire of radius r. If `rho` is the density of the material of wire then what will be the gravitational force exerted by the ring on the material particle of mass m placed on the axis of ring of ring at a distance x from its centre. Shown that the force will be maximum when `x=R//sqrt(2)` and the maximum value of force will be given as
`F_(max)=(4pi^(2)G r^(2)rhom)/((3)^(3//2)R^(2))`

Topper's Solved these Questions

GRAVITATION
PHYSICS GALAXY - ASHISH ARORA|Exercise Particle Exercise|50 Videos
GRAVITATION
PHYSICS GALAXY - ASHISH ARORA|Exercise Discussion Qns|31 Videos
FLUID MECHANICS
PHYSICS GALAXY - ASHISH ARORA|Exercise Unsolved Numerical Problems|86 Videos
KINEMATICS
PHYSICS GALAXY - ASHISH ARORA|Exercise Unsolved Numerical Pro.|83 Videos

Similar Questions

Explore conceptually related problems

Potential on the axis of ring of radius 3R and at distance 4R from centre of ring is (charge on the ring is Q )

A mass m is placed at point P lies on the axis of a ring of mass M and radius R at a distance R from its centre. The gravitational force on mass M is

Find the force of attraction on a particle of mass m placed at the centre of a quarter ring of mass mand radius R as shown in figure.

Find the intensity of gravitational field at a point lying at a distance x from the centre on the axis of a ring of radius a and mass M .

A ring of radius R has charge -Q distributed uniformly over it. Calculate the charge that should be placed at the center of the ring such that the electric field becomes zero at apoint on the axis of the ring at distant R from the center of the ring.

Consider a ring of mass m and radius r. Maximum gravitational intensity on the axis of the ring has value.

For a uniform ring of mass M and radius R at its centre

PHYSICS GALAXY - ASHISH ARORA-GRAVITATION-Unsolved Numerical

A ring of radius R is made from a thin wire of radius r. If rho is the...
Text Solution
|
At what distance from the center of the earth will a 1 kg object have ...
Text Solution
|
The radius of Mars is 3.4 xx 10^(6)m and the accelerationof a freely f...
Text Solution
|
Suppose we invent a unit of mass which we shall call the caendish (C)....
Text Solution
|
Determine the fractional reduction of the acceleration of gravity due ...
Text Solution
|
In figure-6.105, particle A has a mass of 1.4 and particle B has a mas...
Text Solution
|
While investigating the planet Norc in another solar system, we find t...
Text Solution
|
Two concentric shells of mass m(1) and m(2) are situated as shown. Fin...
Text Solution
|
Two point masses, each equal to M, are placed a distance 2a apart. Sho...
Text Solution
|
Computer the mass and density of the moon if acceleration due to gravi...
Text Solution
|
Two masses m(1) and m(2) at an infinite distance from each other are i...
Text Solution
|
Imagine a planet whose diameter and mass are both one half of those of...
Text Solution
|
A thin rod of mass M and length L is bent in a semicircle as shown in ...
Text Solution
|
Three identical particles each of mass "m" are arranged at the corner...
Text Solution
|
A smooth tunnel is dug along the radius of earth that ends at centre. ...
Text Solution
|
A particle of mass m is subjected to an attractive central force of ma...
Text Solution
|
If the radius of the earth were to shrink by one percent its mass rema...
Text Solution
|
In a certain region of space gravitational field is given by I = - (k/...
Text Solution
|
A short , straight and frictinless tunnel is bored through the centr...
Text Solution
|
An iron ball o fradius 1 m and density 8000 kg m^(-3) is placed in ...
Text Solution
|
Two satellites A and B of equal mass move in the equatorial plane of t...
Text Solution
|