Consider a bouncy ball and a metal cylinder on a 20° incline. Everyone knows a regular bouncy ball has a diameter of 2.5 cm and has a mass of 29 g, the cylinder is 5 cm long with a diameter 1 cm. Use your text in order to find the moment of inertia for these 2 solids. Find the angular acceleration of the 2 objects. and Find the linear acceleration of the 2 objects. and Which object accelerates faster? Use the conservation of energy approach to find the length of time the objects in #1 take to roll down a 1.5 m incline at 20°. t = and

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1. Consider a bouncy ball and a metal cylinder on a 20° incline. Everyone
knows a regular bouncy ball has a diameter of 2.5 cm and has a mass of 29
g, the cylinder is 5 cm long with a diameter 1 cm. Use your text in order to
find the moment of inertia for these 2 solids.
Find the angular acceleration of the 2 objects.
and
Find the linear acceleration of the 2 objects.
and
Which object accelerates faster?
1. Use the conservation of energy approach to find the length of time the
objects in #1 take to roll down a 1.5 m incline at 20°.
t =
and
Transcribed Image Text:1. Consider a bouncy ball and a metal cylinder on a 20° incline. Everyone knows a regular bouncy ball has a diameter of 2.5 cm and has a mass of 29 g, the cylinder is 5 cm long with a diameter 1 cm. Use your text in order to find the moment of inertia for these 2 solids. Find the angular acceleration of the 2 objects. and Find the linear acceleration of the 2 objects. and Which object accelerates faster? 1. Use the conservation of energy approach to find the length of time the objects in #1 take to roll down a 1.5 m incline at 20°. t = and
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