A `60.0-kg` woman stands at the western rim of a horizontal turntable having a moment of inertia of `50 kg.m^2` and radius of `2.0 m`. The turntable is initially at rest and free to rotate abot a frictionless, vertical axle through its centre. The woman then starts walking around the rim clockwise` ("as viewed from above the system")` at constant speed of `1.50 m//s` relative to the Earth. The final angular velocity of the woman and the turntable systems.A. `0.36 rad//s ("counterclockwise")`B. `1.8 rad//s ("counterclockwise")`C. `3.6 rad//s ("clockwise")`D. `0.36 rad//s("clockwise")`

A `60.0-kg` woman stands at the western rim of a horizontal turntable

1.	A `60.0-kg` woman stands at the western rim of a horizontal turntable having a moment of inertia of `50 kg.m^2` and radius of `2.0 m`. The turntable is initially at rest and free to rotate abot a frictionless, vertical axle through its centre. The woman then starts walking around the rim clockwise` ("as viewed from above the system")` at constant speed of `1.50 m//s` relative to the Earth. The final angular velocity of the woman and the turntable systems.A. `0.36 rad//s ("counterclockwise")`B. `1.8 rad//s ("counterclockwise")`C. `3.6 rad//s ("clockwise")`D. `0.36 rad//s("clockwise")`
Answer» Correct Answer - A (a) From conservation of angularmomentum for the system of the woman and the turntable, we have `L_f = L_i = 0`, So `L_f = I_(woman) omega_("woman") + I_("table") omega_("table") = 0` and `omega_("table") = (-(I_(woman))/(I_("table"))) omega_(woman)` =`((m_(woman) r^2)/(I_("table")))(v_(woman)/(r))` =`(m_(woman) rv_(woman))/(I_("table"))` `omega_("table") = -(60.0 kg(2.00 m)(1.50 m//s))/(500 kg .m^2)` =` -0.360 rad//s` or `omega_("table") = 0.360 rad//s ("counterclockwise")`.

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