A rotating heavy wheel is used to store energy as kinetic energy. If it is designed to store 1.00 x 106 J of kinetic energy when rotating at 64 revolutions per second, find the moment of inertia (rotational

asked Jul 18, 2021 29.3k views

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We know,
$1\ rpm = (2\pi)/(60) \ rad/s$ .

$64\ rpm\ is = (2\pi)/(60)* 64\ rad/s\\\\= (32\pi)/(15)\ rad/s$

We know, kinetic energy is given by :

$K.E = (I\omega^2)/(2)\\\\I = (2(K.E))/(\omega^2)\\\\I = (2* 10^6)/((32)/(15)* \pi)\\\\I = 298415.52 \ kg \ m^2$

Hence, this is the required solution.

Markus Ratzer answered Jul 24, 2021

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