Answer:
away from the rotational axis.
Explanation:
Newton's first law for rotational movement:
An object that revolves around an axis tends to remain spinning around that axis, unless it interferes some external influence .
The spinning bodies tend to stay spinning, while those who do not turn tend to remain without turn . In other words, the greater the time of inertia, more difficult is to change the state of rotation of that object .
This property is called rotational inertia or Momentum of inertia.
The moment of inertia (or rotational moment) depends on:
- The mass of the object
- The distribution of mass
The farther the thickness of the object's mass is of the axis of rotation, the greater the moment of inertia.
In fact, the moment of inertia I is proportional to the mass and squared distance to the axis:
I = m * (r)^2
