A dancer is spinning at 72 rpm about an axis through her center with her arms outstretched, asshown in (Figure 1). From biomedical measurements, the typical distribution of mass in a human bodyis as follows:Part AHead: 7.0%Arms: 13% (for both)Trunk and legs: 80.0%Calculate moment of inertia about dancer spin axis. Use the figures in the following table to model reasonable approximations for the pertinent parts of your body.Express your answer with the appropriate units.Suppose the mass of the dancer is 57.0 kg, the diameter of her head is 16 cm, the width of her bodyis 24 cm, and the length of her arms is 60 cm.HẢX•10"I =ValueUnitsSubmitPrevious Answers Request AnswerX Incorrect; Try Again; 5 attempts remainingEnter your answer using units of mass moment of inertia.Part BCalculate your rotational kinetic energy.Express your answer with the appropriate units.?Figure< 1 of 1 >K =ValueUnitsSubmitRequest AnswerProvide Feedback

Given: Angular speed, ω=72 rpm=72×2π60 ω=72×2×3.1460 =7.5 rad/s Mass of dancer, m=57 Kg Diameter…

A dancer is spinning at 72 rpm about an axis through her center with her arms outstretched, as shown in (Figure 1). From biomedical measurements, the typical distribution of mass in a human body is as follows: Head: 7.0% Arms: 13% (for both) Trunk and legs: 80.0% Suppose the mass of the dancer is 57.0 kg, the diameter of her head is 16 cm, the width of her body is 24 cm, and the length of her arms is 60 cm.

A dancer is spinning at 72 rpm about an axis through her center with her arms outstretched, as shown in (Figure 1). From biomedical measurements, the typical distribution of mass in a human body is as follows: Head: 7.0% Arms: 13% (for both) Trunk and legs: 80.0% Suppose the mass of the dancer is 57.0 kg, the diameter of her head is 16 cm, the width of her body is 24 cm, and the length of her arms is 60 cm.

Glencoe Physics: Principles and Problems, Student Edition

1st Edition

ISBN:9780078807213

Author:Paul W. Zitzewitz

Publisher:Paul W. Zitzewitz

Chapter9: Momentum And Its Conservation

Section: Chapter Questions

Problem 1STP

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