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1. (20 pts total) As shown in Figure 1, a mass m = 2.00 kg is initially moving in a horizontal x-y plane. Two constant

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1. (20 pts total) As shown in Figure 1, a mass m = 2.00 kg is initially moving in a horizontal x-y plane. Two constant forces of magnitudes F, = 100.0 N and F2 = 125.0 N then begin to act on the mass as the mass continues to move through a displacement of magnitude d = 5.00 m. The angles of the forces measured counterclockwise with respect to the positive x axis are 0,= 20.0% and 02= 60.0, respectively. No other forces act on the mass. The angle of the displacement measured counterclockwise with respect to positive x axis is a = 40.0. F2 d 7 Figure 1. Looking down on the horizontal x-y plane as two constant forces act on a mass that moves through a displacement d. a) (10 pts) Using the definition of work for constant forces, calculate the net work Wet done by the above forces. b) (10 pts) If the magnitude of the initial velocity of the mass was vo = 20.0 m/s when the forces began to act, calculate the magnitude of the final velocity v of the mass when it has move through the above displacement. Make use of your answer to la and the Work-Kinetic Energy Theorem

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