For particles of equal massses M move al...

For particles of equal massses M move along a circle of radius R under th action of their mutual gravitational attraction. Find the speed of each particle.

Text Solution

Verified by Experts

The correct Answer is:

A, B, D

force on M at C due to gravitatioN/Al attraction
`vecF_(CB)=(Gm^2)/(2R^2)vecj`
`vecF_(CD)=-(Gm^2)/(4R^2)vecj`
`vecF_(CA)=-(Gm^2)/(4R^2) cos 45veci+(Gm^2)/(4R^2)sin 45vecj`
`:. vecF_C=vecF_(CA)+vecF_(CB)+vecF_(CD)`
`=(-Gm^2)/(4R^2)(2+1/2)veci+(Gm^2)/(4R^2)(2+1/2)vecj`
so resultant fore on C,
`vecF_C=(Gm^2)/(4R^2)(2/2+1)`
For moving along the circle
`F=(mv^2)/R`
`=V=(GM)/R ((2/2+1)/4 `

Promotional Banner

Promotional Banner

Topper's Solved these Questions

GRAVITATION
HC VERMA|Exercise Objective 2|6 Videos
FRICTION
HC VERMA|Exercise Exercises|31 Videos
HEAT AND TEMPERATURE
HC VERMA|Exercise Exercise|4 Videos

Similar Questions

Explore conceptually related problems

Two particles of equal mass go round a circle of radius R under the action of their mutual gravitational attraction. Find the speed of each particle.

Two particles of equel mass (m) move in a circle of radius (r ) under the action of their mutual gravitational attraction.Find the speed of each particle.

Two particles of equal mass (m) each move in a circle of radius (r) under the action of their mutual gravitational attraction find the speed of each particle.

Two particles each of equal mass (m) move along a circle of radius (r) under the action of their mutual dravitational. Find the speed of each particle.

Four particles each of mass M move along a circle of radius R under the action of their mutula gravitational attraction the speed of each paritcles is

Two particles of equal masses m go round a circle of radius R under the action of their mutual gravitational attraction. The speed of each particle is v=sqrt((Gm)/(nR)) . Find the value of n.

Two particles of equal mass m go around a circle of radius R under the action the of their mutual gravitational attraction . The speed v of each particle is

Two particles of equal mass 'm' go around a circle of radius R under the action of their mutual gravitaitonal attraction. The speed of each particle with respect to their centre of a mass is -

HC VERMA-GRAVITATION-Exercises

Three equal masses m are placed at the three corners of an equilateral...
Text Solution
|
Thee uniform spheres each having a mass M and raius a are kept in such...
Text Solution
|
For particles of equal massses M move along a circle of radius R under...
Text Solution
|
Find the acceleration due to gravity of the moon at a point 1000 km ab...
Text Solution
|
Two small bodies of masses 10 kg and 20 kg are kept a distnce 1.0 m ap...
Text Solution
|
A semicircular wire hs a length L and mass M. A paricle of mass m is p...
Text Solution
|
Derive an expression fro the gravitational field due to a unifrom rod ...
Text Solution
|
Two concentric sphereical shels have masses M1,M2 and radii R1,R2(R1+...
Text Solution
|
A tunnel is dug along a diameter of the earth. Find the force on a par...
Text Solution
|
A tunnel ois dug along a chord of the earth a perpendicular distance R...
Text Solution
|
a solid sphere of mass m and radius r is plced nside as hollow thin sp...
Text Solution
|
A uniform metal sphere of radius R and mass m is surrounded by a thin ...
Text Solution
|
A thin sphereical shel having uniform density is cut in two parts by a...
Text Solution
|
Two small bodies of masses 2.00 kg and 4.00 kg are kept at rest at a s...
Text Solution
|
Three particle of mas m each are placed at the three corners of an equ...
Text Solution
|
kAS particle of mass 100 g is kept on the surface of a uniform sphere ...
Text Solution
|
The gravitationasl fiedl in a region is given by vecE=(5Nkg^-1)veci+(1...
Text Solution
|
The grvitationa potential in a region is given by 'V=20Nkg^-1(x+y)'. A...
Text Solution
|
The gravitational field ina region is given by E=(2veci+vecj)Nkg^-1 sh...
Text Solution
|
Find the height over the eart's surface at which the weight of a body ...
Text Solution
|