The diver spins faster when the moment of inertia becomes
Answers
Answer:
This also gives the diver rotational motion. By pulling the legs and arms closer to the point of rotation, the moment of inertia decreases and the angular velocity increases. A tighter tuck means a faster rotation.
Answer:
The diver spins faster when the moment of inertia becomes smaller.
Explanation:
Reason:
Moment of inertia is the resistance that the body shows to the turning force so when the moment of inertia gets smaller the diver spins faster .
Moment of inertia:
moment of inertia, in science, the quantitative proportion of the rotational latency of a body — i.e., the resistance that the body shows to having its speed of revolution about a pivot modified by the utilization of a force (turning force). The pivot might be interior or outside and could conceivably be fixed. The snapshot of latency (I), nonetheless, is constantly determined regarding that pivot and is characterized as the amount of the items got by duplicating the mass of every molecule of the issue in a given body by the square of its separation from the hub. In computing rakish energy for an unbending body, the snapshot of dormancy is comparable to mass indirect force. For direct energy, the force p is equivalent to the mass m times the speed v; though for rakish force, the precise force L is equivalent to the snapshot of dormancy I times the rakish speed ω.
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