A bicycle is lifted off the ground and placed on a stand so that maintenance can be performed. This allows the front wheel to spin freely along its axle. The wheel has a reflector (m₁ 40 g) located R₁ = 25 cm radially outward from the center. There is also a pebble with mass m₂ stuck in the tire treads and located R₂ = 33 cm radially outward from the center. The wheel is rotated until it reaches a position of equilibrium; at this moment the reflector is located at the 5 o'clock position, and the pebble is located at the 9 o'clock position. What is the mass m₂ of the pebble?

A bicycle is lifted off the ground and placed on a stand so that maintenance can be performed. This allows the front wheel to spin freely along its axle. The wheel has a reflector (m₁ 40 g) located R₁ = 25 cm radially outward from the center. There is also a pebble with mass m₂ stuck in the tire treads and located R₂ = 33 cm radially outward from the center. The wheel is rotated until it reaches a position of equilibrium; at this moment the reflector is located at the 5 o'clock position, and the pebble is located at the 9 o'clock position. What is the mass m₂ of the pebble?

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Question

pls also draw a picture/representation of the scenario described, thank you!

A bicycle is lifted off the ground and placed on a stand so
that maintenance can be performed. This allows the front
wheel to spin freely along its axle. The wheel has a reflector
(m₁ 40 g) located R₁ = 25 cm radially outward from the
center. There is also a pebble with mass m₂ stuck in the
tire treads and located R₂ 33 cm radially outward from
the center. The wheel is rotated until it reaches a position
of equilibrium; at this moment the reflector is located at
the 5 o'clock position, and the pebble is located at the 9
o'clock position. What is the mass m2 of the pebble?
=

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