A 0.338 kg basketball with radius r= 18.8 cm is left at the top of an inclined plane that makes an angle of 0 = 30° with respect to the horizontal. The ball starts from rest and rolls without slipping adistance d = 3.84 m reaching an angular speed of o 3.00 rad/s. What is the ball's moment of inertia? (q48)a) O2.83 kg mb) 04.24 kg mc) O 0.00796 kg md) O14 kg m2

Answered: A 0.338 kg basketball with radius r=…

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A 0.338 kg basketball with radius r= 18.8 cm is left at the top of an inclined plane that makes an angle of 0 = 30° with respect to the horizontal. The ball starts from rest and rolls without slipping a
distance d = 3.84 m reaching an angular speed of o 3.00 rad/s. What is the ball's moment of inertia? (q48)
a) O2.83 kg m
b) 04.24 kg m
c) O 0.00796 kg m
d) O14 kg m2

Expert Solution

Step 1

When a ball traveled distance 'd' on the inclined plane, the height of the slope at that instant will be given as,

$\begin{array}{rcl} h & = & d \sin 30 ° \\ = & (3.84 m) \sin 30 ° \\ = & 1.92 m \end{array}$

The total potential energy stored in the ball at this height can be given as,

$\begin{array}{rcl} P & = & m g h \\ = & (0.338 kg) (9.8 m / s^{2}) (1.92 m) \\ = & 6.3598 J \end{array}$

Step 2

The velocity of the ball is,

$\begin{array}{rcl} v & = & r ω \\ = & (18.8 cm) (3 rad / s) \\ = & (0.188 m) (3 rad / s) \\ = & 0.564 m / s \end{array}$

The total energy of the ball at the bottom is,

$E = \frac{1}{2} m v^{2} + \frac{1}{2} I ω^{2}$

Here, I denotes the moment of inertial of the ball.

$E = \frac{1}{2} (0.338 kg) {(0.564 m / s)}^{2} + \frac{1}{2} I {(3 rad / s)}^{2}$

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