Questions: A basketball is basically a hollow sphere with a mass of 0.640 kg and a radius of 12.1 cm. If a basketball rolls without slipping with a linear speed of 1.33 m / s, find the ball's A. translational kinetic energy B. rotational kinetic energy Kroll=Ktranslation+Krot=(1/2) m vaxis^2+(1/2) I omega^2 C. total kinetic energy.

A basketball is basically a hollow sphere with a mass of 0.640 kg and a radius of 12.1 cm. If a basketball rolls without slipping with a linear speed of 1.33 m / s, find the ball's
A. translational kinetic energy
B. rotational kinetic energy
Kroll=Ktranslation+Krot=(1/2) m vaxis^2+(1/2) I omega^2
C. total kinetic energy.
Transcript text: A basketball is basically a hollow sphere with a mass of 0.640 kg and a radius of 12.1 cm . If a basketball rolls without slipping with a linear speed of $1.33 \mathrm{~m} / \mathrm{s}$, find the ball's A. translational kinetic energy B. rotational kinetic energy \[ K_{\text {roll }}=K_{\text {translation }}+K_{\text {rot }}=\frac{1}{2} m v_{\text {axis }}^{2}+\frac{1}{2} I \omega^{2} \] C. total kinetic energy.
failed

Solution

failed
failed
Was this solution helpful?
failed
Unhelpful
failed
Helpful