As shown, an L-shaped bar is supported by a pin at joint A. The bar's dimensions are aaa = 620 mmmm and bbb = 400 mmmm , and the bar is subjected to a force with magnitude FFF = 5.05 kNkN at joint B. Ignoring the bar's weight, find the actual orientation of the applied force. What is the value of the angle θθtheta?

 

 

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As shown, an L-shaped bar is supported by a pin at joint A. The bar's dimensions are \(a = 620 \, \text{mm}\) and \(b = 400 \, \text{mm}\), and the bar is subjected to a force with magnitude \(F = 5.05 \, \text{kN}\) at joint B. Ignoring the bar's weight, find the actual orientation of the applied force. What is the value of the angle \(\theta\)? **Diagram Description:** The diagram shows an L-shaped bar with a horizontal segment and a vertical segment forming an angle. - **Point A** is the pivot point at the end of the horizontal segment (left side). - The horizontal segment has a length \(a = 620 \, \text{mm}\). - The vertical segment extends upward from the end of the horizontal segment and has a length \(b = 400 \, \text{mm}\). - **Point B** is located at the top end of the vertical segment. - A force \(F\) is applied at Point B, directed at an angle \(\theta\) from the horizontal. The problem involves determining the value of the angle \(\theta\), given the force and dimensions.