a=g(ΔmmT)m/s2 For a frictionless pulley, g is the free fall acceleration due to gravity but in...
a=g(ΔmmT)m/s2
For a frictionless pulley, g is the free fall acceleration due to gravity but in practice, pulleys have friction so g is smaller. Assume your pulley has friction such that g=9 m/s2.
You hang two masses on either side of your pulley. M1 has a mass of 169 g. M2 has a mass of 277 g.
What is the acceleration of the masses as they fall?
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a=g(ΔmmT)m/s2
For a frictionless pulley, g is the free fall
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