The figure below shows Atwood's machine, In which two contalners are connected by a cord (of negligible mass) passing over a frictionless pulley (also of negligible mass). At time t = 0, container 1 has mass 1.30 kg and container 2 has mass 2.86 kg, but container 1 is losing mass (through a leak) at the constant rate of 0.256 kg/s. (a) At what rate is the acceleration magnitude of the containers changing at t = 0? x m/s3 Enter a number. (b) At what rate is the acceleration magnitude of the containers changing at t = 3.00 s? ]m/s³ (c) When does the acceleration reach its maximum value?

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Chapter1: Units, Trigonometry. And Vectors
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The figure below shows Atwood's machine, in which two containers are connected by a cord (of negligible mass) passing over a frictionless pulley (also of negligible mass). At time t = 0, container 1 has mass 1.30 kg and
container 2 has mass 2.86 kg, but container 1 is losing mass (through a leak) at the constant rate of 0.256 kg/s.
(a) At what rate is the acceleration magnitude of the containers changing at t = 0?
m/s3
Enter a number.
(b) At what rate is the acceleration magnitude of the containers changing at t =
3.00 s?
m/s3
(c) When does the acceleration reach its maximum value?
..........
Transcribed Image Text:The figure below shows Atwood's machine, in which two containers are connected by a cord (of negligible mass) passing over a frictionless pulley (also of negligible mass). At time t = 0, container 1 has mass 1.30 kg and container 2 has mass 2.86 kg, but container 1 is losing mass (through a leak) at the constant rate of 0.256 kg/s. (a) At what rate is the acceleration magnitude of the containers changing at t = 0? m/s3 Enter a number. (b) At what rate is the acceleration magnitude of the containers changing at t = 3.00 s? m/s3 (c) When does the acceleration reach its maximum value? ..........
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