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@Scroogey
6h
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on: Brain Not Braining : Part 6
science
The masses and the pulley are irrelevant when you ask about the acceleration?
sin(\theta) \times 9.81 \frac{m}{s^2}
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@noknees
OP
6h
no but the pulley is a frictionless bearing but with moment of inertia I and radius R (to be included for rotational effects)
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sin(\theta) \times 9.81 \frac{m}{s^2}