7. A men's basketball has a radius of about 12 cm and a mass of about 0.63 kg. It can be treated as a thin spherical shell with a rotational inertia of mr2 about an axis that goes through its center. (a) On YouTube, I found a video of Scooter Christiansen of the Harlem Globetrotters spinning a basketball balanced on their forehead. It looked like the basketball was initially spinning at a rate of 4.0 rev/s. What is the angular momentum of the bas- ketball? (Don't forget to give the direction! Refer to the image to the right, which has an added arrow showing the direction of the spin of the ball.) PREHE # ALE 15.11 INSHEats 3000 HARLEM OBETROTTERS to by (b) Over a five second span in the video, the basketball slowed down to a stop, still balance on their forehead. What is the average angular acceleration of the basketball durir those 5 seconds? (Remember that angular acceleration should be in rad/s/s and is vector.) (c) What is the average torque experienced by the basketball due to the friction from int acting with the forehead?

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I need help on question 7.

6.
Six identical rods of negligible mass are each supported by a fulcrum. A mass is
hung off of one end of each ród, and a downward force is applied at the other end. In each
case,
the angle the rod makes with the horizontal is the same.
Rank the cases shown below according to the size of the force needed to keep the rod mo-
tionless, from greatest force to least force. Indicate if there are any cases where the forces are
equal, and explain your reasoning.
A
100 kg
D
200 kg
101
F
B
100 kg
E
200 kg
(a) On YouTube, I found a video of Scooter
Christiansen of the Harlem Globetrotters
spinning a basketball balanced on their
forehead. It looked like the basketball was
initially spinning at a rate of 4.0 rev/s.
C
What is the angular momentum of the bas-
ketball? (Don't forget to give the direction!
Refer to the image to the right, which has
an added arrow showing the direction of the
spin of the ball.)
100 kg
F
7.
A men's basketball has a radius of about 12 cm and a mass of about 0.63 kg. It
can be treated as a thin spherical shell with a rotational inertia of mr² about an axis that
goes through its center.
200 kg
4. HE
HARLEM
OBETROTTERS
30900
(b) Over a five second span in the video, the basketball slowed down to a stop, still balanced
on their forehead. What is the average angular acceleration of the basketball during
those 5 seconds? (Remember that angular acceleration should be in rad/s/s and is a
vector.)
(c) What is the average torque experienced by the basketball due to the friction from inter-
acting with the forehead?
(d) About how far has the basketball rotated during those 5 seconds? (You can give your
answer in either radians or rotations.)
Transcribed Image Text:6. Six identical rods of negligible mass are each supported by a fulcrum. A mass is hung off of one end of each ród, and a downward force is applied at the other end. In each case, the angle the rod makes with the horizontal is the same. Rank the cases shown below according to the size of the force needed to keep the rod mo- tionless, from greatest force to least force. Indicate if there are any cases where the forces are equal, and explain your reasoning. A 100 kg D 200 kg 101 F B 100 kg E 200 kg (a) On YouTube, I found a video of Scooter Christiansen of the Harlem Globetrotters spinning a basketball balanced on their forehead. It looked like the basketball was initially spinning at a rate of 4.0 rev/s. C What is the angular momentum of the bas- ketball? (Don't forget to give the direction! Refer to the image to the right, which has an added arrow showing the direction of the spin of the ball.) 100 kg F 7. A men's basketball has a radius of about 12 cm and a mass of about 0.63 kg. It can be treated as a thin spherical shell with a rotational inertia of mr² about an axis that goes through its center. 200 kg 4. HE HARLEM OBETROTTERS 30900 (b) Over a five second span in the video, the basketball slowed down to a stop, still balanced on their forehead. What is the average angular acceleration of the basketball during those 5 seconds? (Remember that angular acceleration should be in rad/s/s and is a vector.) (c) What is the average torque experienced by the basketball due to the friction from inter- acting with the forehead? (d) About how far has the basketball rotated during those 5 seconds? (You can give your answer in either radians or rotations.)
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