Three equal masses m are placed at the t...

Three equal masses m are placed at the three corners of an equilateral tringle of side a. find the force exerted by this sytem on another particle of mass m placed at a. the mid point of a side b. at the centre of the triangle.

Text Solution

Verified by Experts

The correct Answer is:

A, B, C, D

a. If m is palced at mid point of a side then `vecF_(OA)=(4Gm^2)/a^2` in OA direction
`vecF_(OB)=(4Gm^2)/a^2` in OB direction
Since equal and opposite forces cancel each other `vecF_(OC)=(4Gm^2)/({(3)a^2})`
`=(4Gm^2)/(3a^2)` in OC direction
b. If placed at 0 (centroid)
Resultant `vecF_(OA)+vecF_(OB)+vecF_(OC)=0`
(because fore are equal and opposite)
Net gravitatioN/Al force =0

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

Three identical particles each of mass m are placed at the vertices of an equilateral triangle of side a. Fing the force exerted by this system on a particle P of mass m placed at the (a) the mid point of a side (b) centre of the triangle

If there particles, each of mass M , are placed at the three corners of an equilibrium triangle of side, a the force exerted by this system on another particle of mass M placed (i) at the midpoint of side and (ii) at the centre of the triangle are, respectively.

Three points charges are placed at the corners of an equilateral triangle of side L as shown in the figure:

Three charges each 20muC are placed at the corners of an equilateral triangle of side 0.4m The potential energy of the system is

Three equal masses of 1.5 kg each are fixed at the vertices of an equilateral triangle of side 1 m. What is the force acting on a particle of mass 1 kg placed at its centroid ?

Three point masses 'm' each are placed at the three vertices of an equilateral traingle of side 'a'. Find net gravitational force on any point mass.

Three masses 3,4 and 5 kg are located at the corners of an equilateral triangle of side 1m. Locate to centre of mass of the system.

Three particle each of mass m are placed at the corners of equilateral triangle of side l Which of the following is/are correct ?

HC VERMA-GRAVITATION-Exercises

Two spherical balls of mass 10 kg each are placed 10 cm apart. Find th...
Text Solution
|
Four particles having masses, m, wm, 3m, and 4m are placed at the four...
Text Solution
|
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
|