Respuesta :
Explanation:
A point like object moves under the influence of gravity will have linear motion. So it is not necessary for the point like object moving under the gravity to have rotational motion.
Thus, for a point like object acting under the gravity, rotational motion is not possible, and it has got no importance of rotation motion.
A sprinter starts his race by first bending forward and then rise slowly to maintain his speed. In this scenario, the conservation of angular momentum plays an important role.
So, for a splinter, rotational motion is possible and is even important.
For a massive rod floating in an infinite body of water, rotation is possible. In general, the body in this case tend to move in downward direction. But if the water is flowing then there is a possibility for this object to rotation. Not only the water currents, the wind also cause the rod to rotate inits floating condition.
So, The rotation is possible for the rod floating in an infinite body of water.
In general, the force due to gravity assumed to act on the center of gravity of the object. In case of a spherical basketball, if it is falling or moving under the influence of gravity, it tend to move downwards towards the center of earth. In addition to its translation motion, it is possible for the ball to have the rotational motion.
So, the rotation is possible for the ball acting under the gravity.
For the two point like interacting objects, the rotation is possible. For example, a binary star system rotates about its center of mass.
So, for two point like interacting objects is possible.
The rotational motion is possible in the case of the basketball, two point-like objects, and sprinter and for the rod when water is moving.
Rotational motion:
For a massive rod floating in an infinite body of water, rotation is possible. Generally, if the water is still then rotational is not possible, but if the water is moving then rotational motion is possible
A point-like object that moves under the influence of gravity will have translational motion. Rotational motion for a point-like object does not have any importance because the rotational motion for a point-like object will be negligible and have no influence.
A spherical basketball acting under the force of gravity can have rotational motion along with the translational motion. For example, you must have seen a basketball hit the ground and then rebound in the air rotating while going up.
For the two point-like interacting objects, rotation is possible. For example, a binary star system rotates about its center of mass.
A sprinter starts his race by first bending forward and then rising slowly to maintain his speed. In this scenario, the conservation of angular momentum plays an important role.
Learn more about rotational motion:
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