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The homogeneous wire ABCD is bent as shown and is attached to a hinge at C . Determine the length L for which portion BCD of the wire is horizontal.
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- A uniform rod has mass m and length L. One end of the rod is attached to a fixed point O by a hinge and an additional force F is applied to the other end of the rod in the direction shown, perpendicular to the rod. Given that the rod is in mechanical equilibrium, what is the magnitude of the applied force F, expressed as a numerical multiple of mg, where g is the magnitude of the acceleration due to gravity? Express your answer to 3 decimal points.Structural member AB is to be supported by a strut CD. Determine the smallest length CD may have, and specify where D must be located for a strut of this length to be used. Take x= 120 mm. 60 mm D. y 20 mm E The smallest length CD may have is mm. The coordinates of point Dare ( and Imm.The gray rod is held in rotational equilibrium against the blue wall and the black hinge pin. The rod's length and mass are one meter and fifteen kg. The angle is 22.2 degrees. Determine the force provided by the horizontal cord in Newtons to two sig. figs. 0
- A 3.0kg uniform pole 1.8m long is held horizontal by a hinge to a wall and supported by a cable attached to its center which forms a 45° angle with the pole. A large bird house with a mass of 6.6kg is at the end of tge pole. Find the force that the hinge exerts on the pole.In the figure below, suppose the length L of the uniform bar is 3.50 m and its weight is 240 N. Also, let the block's weight W = 350 N and angle 0 30°. The wire can withstand a maximum tension of 500 N. C - X→ com В (a) What is the maximum possible distance x before the wire breaks? (b) With the block placed at this maximum x, what is the horizontal component of the force on the bar from the hinge at A? N (right) (c) What is the vertical component of this force? N (up)