establish relationship between torque and momentum of inertia
Answers
Explanation:
Relationship between Torque and Moment of Inertia
For simple understanding, we can imagine it as Newton’s Second Law for rotation. Where torque is the force equivalent, a moment of inertia is mass equivalent and angular acceleration is linear acceleration equivalent. The rotational motion does obey Newton’s First law of motion.
Consider an object under rotatory motion with mass m, moving along an arc of a circle with radius r. From Newton’s Second Law of motion we know that,
F= ma
⇒a=Fm ———(1)
Substitute linear acceleration a with angular acceleration. That is-
We know that, Acceleration a=ddt(dsdt)
For rotatory motion s = rd??. Thus, Substituting we get-
=ddt(rdθdt) =rddt(dθdt)
Thus, a=rα is the angular acceleration ———-(2)
Similarly, replace force F by Torque ?? we get-
τ=Fr ⇒F=τr ——–(3)
Substituting equation (2) and (3) in (1) we get-
(1)⇒rα=(τr)m ⇒rα=τrm ⇒τ=mr2α
We know that moment of inertia I=mr2
Thus, substituting it in the above equation we get-
⇒τ=Iα
Hope you understood the relation and conversion between the Torque and the Moment of Inertia of rotational motion.
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