Two masses are connected by a string over a pulley as shown (in an Atwood's machine). m₂ is more massive than m₁ as shown. Assume the pulley and string are massless and frictionless. The masses of m₁and m₂ are:m₁ = 12 kg and m₂ = 35 kg. The two masses are initially held at rest. Determine the magnitude of the acceleration a of the combined system when they are released. (g=9.81 m/s²) O 9.8 m/s^2 O 4.8 m/s^2 O 6.9 m/s^2 7782 O 2.4 m/s^2

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Two masses are connected by a string over a pulley as shown (in an Atwood's
machine). m₂ is more massive than m₁ as shown. Assume the pulley and string
are massless and frictionless.
The masses of m₁and m₂ are:m₁ = 12 kg and m₂ = 35 kg. The two masses are initially held at
rest. Determine the magnitude of the acceleration a of the combined system when they are
released. (g=9.81 m/s²)
O 9.8 m/s^2
O 4.8 m/s^2
O 6.9 m/s^2
7782
O 2.4 m/s^2
Transcribed Image Text:Two masses are connected by a string over a pulley as shown (in an Atwood's machine). m₂ is more massive than m₁ as shown. Assume the pulley and string are massless and frictionless. The masses of m₁and m₂ are:m₁ = 12 kg and m₂ = 35 kg. The two masses are initially held at rest. Determine the magnitude of the acceleration a of the combined system when they are released. (g=9.81 m/s²) O 9.8 m/s^2 O 4.8 m/s^2 O 6.9 m/s^2 7782 O 2.4 m/s^2
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