In the figure, two blocks, of mass m₁ = 341 g and m₂ = 526 g, are connected by a massless cord that is wrapped around a uniform disk of mass M = 586 g and radius R = 10.6 cm. The disk can rotate without friction about a fixed horizontal axis through its center; the cord cannot slip on the disk. The system is released from rest. Find (a) the magnitude of the acceleration of the blocks, (b) the tension T₁ in the cord at the left and (c) the tension T₂ in the cord at the right.

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**Image Description:** The image depicts a pulley system often used in physics problems to illustrate concepts related to rotational motion and dynamics. **Components:** 1. **Pulley:** - A circular object with a radius \( R \) and mass \( M \). - The pulley is fixed on an axle and can rotate. 2. **Masses:** - There are two masses, \( m_1 \) and \( m_2 \), each attached to opposite ends of a rope that passes over the pulley. - \( m_1 \) is on the left side of the pulley, and \( m_2 \) is on the right side. 3. **Tensions:** - \( T_1 \) and \( T_2 \) are the tensions in the rope segments connected to \( m_1 \) and \( m_2 \), respectively. **Concepts Illustrated:** - The system demonstrates how different forces act on a rotating object and how they affect motion. - The tensions \( T_1 \) and \( T_2 \) lead to different accelerations depending on the relative sizes of \( m_1 \) and \( m_2 \). - The pulley experiences a net torque due to these tensions, causing it to rotate, illustrating the principles of torque and angular acceleration. This setup is commonly analyzed to understand mechanical advantage, rotational equilibrium, and energy conservation in mechanical systems.