That is called moment of inertia.
The rotational analog of force in linear motion is "Torque".
Mass and radius
mass, velocity and radius
Answer #1:The Rotational Inertia of an object increases as the mass "increases" and thedistance of the mass from the center of rotation "decreases".=================================Answer #2:If Answer #1 were correct, then flywheels would be made as small as possible,and a marble would be harder to spin than a wagon wheel is.An object's rotational inertia (moment of inertia) increases in direct proportionto its mass, and increases in proportion to the square of the distance of themass from the center of rotation.
That is called moment of inertia.
The rotational analog of force in linear motion is "Torque".
The rotational analog is 2nd of newtons law it is the angular acceleration of a rigid object around an axis is proportional to the next external torque on the body around its axis and inversely proportional to the moment of rotational inertia about that axis.
F has no symetry : line or rotational symmetry
No. For the rotational inertia, the distribution of masses is relevant. Mass further from the axis of rotation contributes more to the rotational inertial than mass that is closer to it.
no
Mass and radius
mass, velocity and radius
The force is given by :.f = m * ( v^2 / r ) , where:.f = force in newtonsm = mass in kilogramsv = rotational velocity in metres / secondr = radius to centre of gravity in metres
Rotational motion is rotation of a body about its center of mass.
Rotational inertia is sometimes called spin. It involves the movement of a mass around an axis. This moving mass will have some measure of kinetic energy that is due to the fact that it is spinning. The variables are the shape and the mass of the object, the way the mass is distributed within the object, the speed of its rotation, and the location of the axis of spin through the object. The moment of inertia might also be called angular mass, mass moment of inertia, rotational inertia, or polar moment of inertia of mass. Use the link below for more information.
i dont f--king know