Three particles, each of mass m grams si...

Three particles, each of mass `m` grams situated at the vertices of an equilateral `Delta ABC` of side `l` cm (as shown in the figure). The moment of inertia of the system about a line `AX` perpendicular to `AB` and in the plane of `ABC` in `g-cm^(2)` units will be

`(3)/(4)ml^(2)`

`2ml^(2)`

`(5)/(4)ml^(2)`

`(3)/(4)ml^(2)`

Text Solution

Verified by Experts

The correct Answer is:

Similar Questions

Explore conceptually related problems

Three particles, each of mass m grams situated at the vertices of an equilateral triangle AbC of side I cm (as shown in the figure). The moment of inertia of the system about a line AX perpendicular to AB and in the plane of ABC , in gram-cm^2 units will be. .

Three particles, each of mass m are situated at the vertices of an equilateral triangle ABC of side l (as shown in the figure). The moment of inertia of the system about a line AX perpendicular to AB and in the plane of ABC, will be:

Three particles, each of mass m are situated at the vertices of an equilateral triangle ABC of side L as shown in the figure. Find the moment of inertia of the system about the line AX perpendicular to AB in the plane of ABC

Three masses each of mass m are palced at the vertices of an equilateral triangles ABC of side l as shown in figure. The force acting on a mass 2m placed at the centroid O of the triangle is

Three particles of equal mass 'm' are situated at the vertices of an equilateral triangle of side L . The work done in increasing the side of the triangle to 2L is

Three particles of massses 50 g, 100 g and 150 g are placed at the vertices of an equilateral triangle of side 1m ( as shown in the figure ) . The ( x, y) coordinates of the centre of mass will be :

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

Four rings each of mass M and radius R are arranged as shown in the figure. The moment of inertia of the system about YY' will be

Three charges Q, (+q) and (+q) are placed at the vertices of an equilateral triangle of side l as shown in the figure. It the net electrostatic energy of the system is zero, then Q is equal to

Three particles, each of mass `m` grams situated at the vertices of an equilateral `Delta ABC` of side `l` cm (as shown in the figure). The moment of inertia of the system about a line `AX` perpendicular to `AB` and in the plane of `ABC` in `g-cm^(2)` units will be

Text Solution

Similar Questions

Recommended Questions