Figure shows two masses hanging from a string running over a pulley. Such a device can be used to measure the acceleration of gravity; it is then called Atwood's machine. Suppose that an experimenter using masses m₁ = 400.0 g and m₂ = 402.0 g finds that the masses move a distance of 0.50 m in 6.4 s starting from rest. What value of g does this imply? Assume the pulley is massless. my m2

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Chapter1: Units, Trigonometry. And Vectors
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Figure shows two masses hanging from a string running over a pulley. Such a device can be used
to measure the acceleration of gravity; it is then called Atwood's machine. Suppose that an
experimenter using masses m₁ = 400.0 g and m₂ = 402.0 g finds that the masses move a distance
of 0.50 m in 6.4 s starting from rest. What value of g does this imply? Assume the pulley is
massless.
my
m2
Transcribed Image Text:Figure shows two masses hanging from a string running over a pulley. Such a device can be used to measure the acceleration of gravity; it is then called Atwood's machine. Suppose that an experimenter using masses m₁ = 400.0 g and m₂ = 402.0 g finds that the masses move a distance of 0.50 m in 6.4 s starting from rest. What value of g does this imply? Assume the pulley is massless. my m2
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