m₁ m₂ A mass m, 3.8 kg rests on a frictionless table and connected by a massless string over a massless pulley to another mass m₂ = 5.5 kg which hangs freely from the string. When released, the hanging mass falls a distance d = 0.77 m. 1) How much work is done by gravity on the two block system? Submit

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**Understanding Work Done by Gravity on a Two-Block System** In this exercise, we analyze the work done by gravity on a two-block system in a physics setup. ### System Description - **Mass \( m_1 \)**: 3.8 kg, resting on a frictionless table. - **Mass \( m_2 \)**: 5.5 kg, hanging freely and connected to \( m_1 \) by a massless string. - **String**: Massless, passing over a massless pulley. - When the system is released, \( m_2 \) falls a distance \( d \) of 0.77 meters. ### Diagram Explanation The diagram above shows: - A block labeled \( m_1 \) on a horizontal surface (table). - A string extending horizontally from \( m_1 \) to a pulley, then vertically downward to a block labeled \( m_2 \). - The string and pulley setup allows \( m_1 \) to remain on the table while \( m_2 \) falls freely when released. ### Problem Statement 1. **Question**: How much work is done by gravity on the two-block system as \( m_2 \) falls a distance \( d \)? ### Input Section Below the problem statement, there is a text box where you can input your answer, followed by a "Submit" button: - **Input Field**: [_______________________] - **Submit Button**: [Submit] This setup presents a classic problem in mechanics involving concepts such as Newton's laws, work, and energy. Understanding the forces and movements in the system helps in calculating the work done by gravity. [This text format is designed for an educational website, providing a clear and structured approach to understanding this physics problem.]