The 520-lb beam is supported at A and B when it is subjected to a force of P = 1000 lb as shown. (Figure 1) Figure < 1 of 1 If the pin support at A suddenly fails, determine the beam's initial angular acceleration. For the calculation, assume that the beam is a slend so that its thickness can be neglected. Express your answer to three significant figures and include the appropriate units. α = Submit Part B μÅ Value 3 → Request Answer Units ? Determine the force of the roller support on the beam. Express your answer to three significant figures and include the appropriate units.

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## Problem Statement The 520-lb beam is supported at points \( A \) and \( B \) when it is subjected to a force of \( P = 1000 \, \text{lb} \) as shown in Figure 1. ### Figure Explanation The figure illustrates a horizontal beam of total length 10 feet, supported at two points—\( A \) and \( B \). The beam rests on a roller support at \( B \) and is pinned at \( A \), where \( A \) is located 2 feet from the right end of the beam and \( B \) is located 8 feet from the left end. A force \( P \) is applied at an angle to the vertical (no specific angle given), displacing the beam. ## Tasks ### Part A Determine the beam's initial angular acceleration if the pin support at \( A \) suddenly fails. Assume the beam is a slender rod, so its thickness can be neglected. **Instructions:** - Express your answer to three significant figures. - Include the appropriate units. **Input Box for Answer:** \[ \alpha = \boxed{\text{Value}} \, \text{Units} \] ### Part B Determine the force of the roller support on the beam. **Instructions:** - Express your answer to three significant figures. - Include the appropriate units. **Input Box for Answer:** \[ B_y = \boxed{\text{Value}} \, \text{Units} \] Please enter your responses in the designated fields and submit them for evaluation.