An Atwood's machine  consists of two masses: one of mass 1.23 kg and the other of mass 4.96 kg.When released from rest, what is the acceleration of the system? 

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**An Atwood’s Machine Problem** An Atwood's machine (see the figure below) consists of two masses: one of mass 1.23 kg and the other of mass 4.96 kg. When released from rest, what is the acceleration of the system? (Enter the magnitude in m/s².) **Diagram Explanation:** The diagram shows an Atwood's machine setup: - A pulley with a string looped over it. - Mass \( m_1 = 1.23 \, \text{kg} \) is on one side, moving upwards with acceleration \( \vec{a_1} \). - Mass \( m_2 = 4.96 \, \text{kg} \) is on the other side, moving downwards with acceleration \( \vec{a_2} \), indicated by arrows. **Hints and Assistance:** - There is a "HINT" button for additional help. - Enter the calculated acceleration in the provided text box in m/s². - Further assistance options include "Read It" or "Watch It" for more detailed explanations. **Need Help?** - Options to "Read It" or "Watch It" are available for extra support.