AP Physics 1 Rotational Energy & Momentum
Physics
12th Grade
NGSS covered
Used 61+ times
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5 questions
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1.
MULTIPLE CHOICE QUESTION
2 mins • 1 pt
What is the kinetic energy of a 3 kg solid disk (I = 1/2mr2) with a diameter of 80 cm rolling at 4 m/s?
12 J
24 J
36 J
48 J
2.
MULTIPLE CHOICE QUESTION
2 mins • 1 pt
You roll a solid sphere of mass m and radius r (I = 2/5mr2) down a ramp from a height of h, if it starts at rest what is its linear speed at the bottom?
√1.4gh)
√2gh)
√3.5gh)
√5gh)
Tags
NGSS.HS-PS3-1
NGSS.HS-PS3-2
3.
MULTIPLE CHOICE QUESTION
2 mins • 1 pt
A certain star, of mass m and radius r, is rotating with rotational velocity ω. After the star collapses, it has the same mass but with a much smaller radius. Which statement below is true?
The star’s moment of inertia I has decreased, and its angular momentum L has increased
The star’s moment of inertia I has decreased, and its angular velocity ω has decreased
The star’s angular momentum L remains constant, and its rotational kinetic energy has decreased
The star’s angular momentum L remains constant, and its rotational kinetic energy has increase
4.
MULTIPLE CHOICE QUESTION
2 mins • 1 pt
An ice skater pulls in her arms at the end of a spinning move.
What does this accomplish?
She increases her torque which increases her angular speed
She decreases her rotational energy which increases her angular speed
She increases her angular momentum which increases her angular speed
She decreases her inertia which increases her angular speed
5.
MULTIPLE CHOICE QUESTION
2 mins • 1 pt
Two objects are released from rest at the top of ramps with the same dimensions, as shown in the figure above. The sphere rolls down one ramp without slipping. The small block slides down the other ramp without friction. Which object reaches the bottom of it’s ramp first, and why?
The sphere, because it gains rotational kinetic energy, but the block does not
The sphere, because it gains mechanical energy due to the torque exerted on it, but the block does not
The block, because it does not lose mechanical energy due to friction, but the sphere does
The block, because it does not gain rotational kinetic energy, but the sphere does.
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