An object of mass m¡ = 0.105 kg undergoes uniform circular motion. It is connected by a massless string through a hole in m, a frictionless table to a larger object of mass m2 = 0.265 kg, as shown in the figure. Assuming the larger object is stationary, calculate the tension T in the string and the linear speed v of the circular motion of the smaller object on the table. Assume that the radius R of the circular path of the smaller object is equal to 1.00 m. T = N U = m/s

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An object of mass m1 = 0.105 kg undergoes uniform circular
motion. It is connected by a massless string through a hole in
m.
a frictionless table to a larger object of mass m2 = 0.265 kg,
as shown in the figure. Assuming the larger object is
stationary, calculate the tension T in the string and the linear
speed v of the circular motion of the smaller object on the
m,
table. Assume that the radius R of the circular path of the
smaller object is equal to 1.00 m.
T =
N
U =
m/s
Transcribed Image Text:An object of mass m1 = 0.105 kg undergoes uniform circular motion. It is connected by a massless string through a hole in m. a frictionless table to a larger object of mass m2 = 0.265 kg, as shown in the figure. Assuming the larger object is stationary, calculate the tension T in the string and the linear speed v of the circular motion of the smaller object on the m, table. Assume that the radius R of the circular path of the smaller object is equal to 1.00 m. T = N U = m/s
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