Problem 2 (10 points) An Atwood machine consists of two masses, m 7.0 kg and me= 9.0 kg, which are connected by a rope t

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Problem 2 10 Points An Atwood Machine Consists Of Two Masses M 7 0 Kg And Me 9 0 Kg Which Are Connected By A Rope T 1 (30.11 KiB) Viewed 71 times

Problem 2 (10 points) An Atwood machine consists of two masses, m 7.0 kg and me= 9.0 kg, which are connected by a rope that hangs over a pulley. The pulley is a uniform cylinder (MR) of radius R 0.25m and mass M-1.0 kg. Initially mu is at rest on the ground and ma is 2.5m above the ground. Determine A) The linear acceleration of blocks me and me (Hint: The tensions on A and B are NOT equal) B) The velocity of ms right before it hits the ground (assume a 2 m/s if didn't solve part A) C) The angular momentum of the pulley when my hits the ground (Assume v=3 mis if didn't solve part B may-(1m²) = mack Y MO Etime 1-70x5 02x0² T-Ma 9.07 025m 1.1009 ++3mra Amri) T: tma m₂ Tima MA y (marmo). Th= a(matory) a-3-7²79(&ma)-a W₂ Σfima 77M₂9-T-M₂C ma my 2.5 m