A body has its centre of maas at the origin. The x-coordinates of the particles

A body having its centre of mass at the origin has three of its particles at (a,0,0), (0,a,0),(0,0,a). The moments of inertia of the body about the X and Y axes are 0.20 kg -m^2 each. The moment of inertia about the Z-axis

Coordinates of the origin are

A loop is kept so that its center lies at the origin of the coordinate system. A magnetic field has the induction B pointing along Z axis as shown in the figure

A particle of mass m is moving with constant speed v on the line y=b in positive x-direction. Find its angular momentum about origin, when position coordinates of the particle are (a, b).

If large number of particles are distributed on XY plane and their centre of mass is at origin of coordinates, then

The speed v of a particle moving along a straight line is given by a+bv^(2)=x^(2) where x is its distance from the origin. The acceleration of the particle is

Velocity and acceleration of a particle at some instant of time are v = (3hati +4hatj) ms^(-1) and a =- (6hati +8hatj)ms^(-2) respectively. At the same instant particle is at origin. Maximum x-coordinate of particle will be

If a large number of particles are distributed on YZ plane and their centre of mass is at origin of coordinates, then Sum of moments of masses of all particles about the origin is zero Sum of momentum of masses of all particles w.r.t. the origin is zero Sum of moments of masses of all particles about Y axis is zero. Sum of moments of masses of all particles about Z axis is zero.

All the particles of a body are situated at a distance R from the origin. The distance of the centre of mass of the body from the origin is

All the particles of body are situated at a distance R from the origin. The distance of the centre of mass of the body from the origin is also R. Is this statement true or false?