Moment=>This is the turning effect of a force about a point
mass moment of inertia for a solid sphere: I = (2 /5) * mass * radius2 (mass in kg, radius in metres)
mass moment of inertia is the property of the body to resist rotation about the given axis where as the area moment of inertia is the resistance to bending about the given axis
mass
define moment of inertia§ I is the moment of inertia of the mass about the center of rotation. The moment of inertia is the measure of resistance to torque applied on a spinning object (i.e. the higher the moment of inertia, the slower it will spin after being applied a given force).
Moment of Inertia of a disk (I) = 1/2MR2 Moment of Inertia of a disk (I) = 1/4MR2
this i not a help full answer
m x v2. Mass times the mass velocity in quadrant. Double the speed and you quadrouple it's kinetic energy. If you duplicate the mass, you only get twice the moment of inertia. ---
Because the charge/mass ratio of a nucleus is smaller than the charge/mass ratio of an electron
moment is nothing but a force but momentum is the product of mass and velocity.
Most of the mass of a flywheel is concentrated at the rim so as to have a larger moment of inertia for the same mass. This is due to the fact that the moment of inertia varies as the square of the distance from the axis of rotation.
A vector. Since velocity is a vector, moment, which is mass x velocity, is also a vector.
Moment of inertia depends upon the distribution of mass with respect to the axis of rotation.The greater the distance between the bulk of an object's mass and the axis of rotation, the greater the moment of inertia will be. A solid disk has its mass distributed evenly across its diameter, while a ring has its mass concentrated furthest from the centre of rotation.