FREE Trial

An ice skater is spinning on frictionless ice with her arms extended outward. She then pulls her

Question:

An ice skater is spinning on frictionless ice with her arms extended outward. She then pulls her arms in toward her body, reducing her moment of inertia. Her angular momentum is conserved, so as she reduces her moment of inertia, her angular velocity increases and she spins faster. Compared to her initial rotational kinetic energy, her final rotational kinetic energy is
(a) The same
(b) Larger, because her angular speed is larger
(c) Smaller, because her moment of inertia is smaller.
Fantastic news! We've Found the answer you've been seeking!

Step by Step Answer:

Answer rating: 40% (10 reviews)

b The rotational kinetic energy of a rotating body is KE g I 2 see Equation 99 ...View the full answer


answer-question-section
Answered By
tutor-profile-image
Utsab mitra
I have the expertise to deliver these subjects to college and higher-level students. The services would involve only solving assignments, homework help, and others. I have experience in delivering these subjects for the last 6 years on a freelancing basis in different companies around the globe. I am CMA certified and CGMA UK. I have professional experience of 18 years in the industry involved in the manufacturing company and IT implementation experience of over 12 years. I have delivered this help to students effortlessly, which is essential to give the students a good grade in their studies.
3.50+ 2+ Reviews 10+ Question Solved
Related Book For  book-img-for-question
Physics

Physics

ISBN: 978-1118486894

10th edition

Authors: David Young, Shane Stadler

See More Books
Question Posted:
See More Questions

Students also viewed these Modern Physics questions

Life After Death 1st Edition - ISBN: 0142180289 - Free Book