Problem 6: Inputs: ● ● ● ● ● F₁ = 600 N F₂ = 100 N F3 = 150 N L₁= 0.50 m L2= 1.25 m ● 0 = 85° 0.1 m + O 0.1 m We will create an equivalent system at point O. Technically speaking, we must replace the force and couple system shown by an equivalent system at point O. L₁ a) Compute the magnitude of the resultant force required to make the equivalent system b) What is the direction of the resultant force, relative to horizontal (i.e. relative to the positive x-axis)? F₂ 0 L₂ F₁ c) What is the magnitude of the resultant couple moment which must be applied at point O in order to make the equivalent system? Be sure to indicate direction with your boxed answer. 3

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Problem 6: Inputs: ● ● ● ● F₁ = 600 N F₂ = 100 N F3 = 150 N L₁= 0.50 m L₂= 1.25 m ● 0 = 85° 0.1 m 0.1 m ·0 We will create an equivalent system at point O. Technically speaking, we must replace the force and couple system shown by an equivalent system at point O. L₁ a) Compute the magnitude of the resultant force required to make the equivalent system b) What is the direction of the resultant force, relative to horizontal (i.e. relative to the positive x-axis)? F₂ L₂ F₁ 5 c) What is the magnitude of the resultant couple moment which must be applied at point O in order to make the equivalent system? Be sure to indicate direction with your boxed answer. F₁