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A thin-walled sphere rolls along the floor. What is the ratio of its translational kinetic energy to its rotational kinetic energy about an axis through its center of mass?
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A thin-walled sphere rolls along the floor. What is the ratio of its translational kinetic energy to its rotational kinetic energy about an axis through its center of mass?

User Ndmweb
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1 Answer

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Step-by-step explanation:

The kinetic energy of translation


E_1=(1)/(2)mv^2

m= mass v= linear velocity

The kinetic energy of rotation


E_2=(1)/(2)I\omega^2

I= MOI of the thin walled sphere =kmR^2

where ω= v/R= angular velocity


E_2=(1)/(2)kmR^2(v)/(R)^2

Then


(E_1)/(E_2) = (0.5mv^2)/(0.5kmR^2(v)/(R)^2 )

=1/k

solid sphere: k=0.4; E1/E2 =1/0.4 = 2.5;

hollow sphere: k=2/3; E1/E2 = 1.5

User Ben Beri
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