Answer the question in full details, thank you very much, Answer on the correct significant figures: A metal can containing condensed mushroom soup has a mass of m = 247 g, a height of h = 15.7 cm, and a diameter of D = 6.67 cm. Itis placed at rest on its side at the top of a L = 3.11 m-long incline that is at an angle of Angle = 24.3 deg to the horizontal; the can is then released to roll down the incline, reaching the bottom t = 1.53 s later. Assuming energy is conserved, calculate the moment of inertia of the can in kg-cm^2 (not kg-m^2).
Answer the question in full details, thank you very much, Answer on the correct significant figures: A metal can containing condensed mushroom soup has a mass of m = 247 g, a height of h = 15.7 cm, and a diameter of D = 6.67 cm. Itis placed at rest on its side at the top of a L = 3.11 m-long incline that is at an angle of Angle = 24.3 deg to the horizontal; the can is then released to roll down the incline, reaching the bottom t = 1.53 s later. Assuming energy is conserved, calculate the moment of inertia of the can in kg-cm^2 (not kg-m^2).
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Answer the question in full details, thank you very much, Answer on the correct significant figures:
A metal can containing condensed mushroom soup has a mass of m = 247 g, a height of h = 15.7 cm,
and a diameter of D = 6.67 cm. Itis placed at rest on its side at the top of a L = 3.11 m-long incline that
is at an angle of Angle = 24.3 deg to the horizontal; the can is then released to roll down the incline, reaching
the bottom t = 1.53 s later. Assuming energy is conserved, calculate the moment of inertia of the can in
kg-cm^2 (not kg-m^2).
![Soup
can
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Transcribed Image Text:Soup
can
Ꮎ
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