Two blocks, both of the same mass m, are held together by a string. One block is pulled away from the other by a force of magnitude F1, while the other is pulled away from the first by a force of magnitude F2. The two blocks and the string remain intact, however, and travel together at an acceleration a in the direction of block 1. What is the magnitude of the force T in the string (i.e. tension) that holds the two blocks together? Assume the mass of the string is negligible. 2ma F+F} 2 2 O F1 + F2 – ma
Two blocks, both of the same mass m, are held together by a string. One block is pulled away from the other by a force of magnitude F1, while the other is pulled away from the first by a force of magnitude F2. The two blocks and the string remain intact, however, and travel together at an acceleration a in the direction of block 1. What is the magnitude of the force T in the string (i.e. tension) that holds the two blocks together? Assume the mass of the string is negligible. 2ma F+F} 2 2 O F1 + F2 – ma
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Transcribed Image Text:### Physics Problem: Tension in a String
**Problem Statement:**
Two blocks, both of the same mass \( m \), are held together by a string. One block is pulled away from the other by a force of magnitude \( F_1 \), while the other is pulled away from the first by a force of magnitude \( F_2 \). The two blocks and the string remain intact, however, and travel together at an acceleration \( a \) in the direction of block 1. What is the magnitude of the force \( T \) in the string (i.e., tension) that holds the two blocks together? Assume the mass of the string is negligible.
**Answer Choices:**
- \( \quad O \quad 2ma \)
- \( \quad O \quad \frac{F_1 + F_2}{2} \)
- \( \quad O \quad \frac{F_1 - F_2}{2} \)
- \( \quad O \quad F_1 + F_2 - ma \)
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