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A spring with spring constant k=12.5N/m is hung vertically. A mass of 0.500 kg is then suspended from the spring. Determine the displacement of the spring's end due to the weight of the 0.500 kg object. An object with a mass of 0.400 kg is lifted by a vertical distance of 0.450m in the gravitational field of the earth. Determine the change in the gravitational potential energy. The spring constant k=8.75N/m is hanging vertically from a rigid support. The mass of 0.500 kg is put at the spring's end and supported by a hand at a point where the spring's displacement is 0.250 m. Suddenly, the mass is released and allowed to fall. What is the spring's displacement from its equilibrium at the lowest position of the mass?

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When the car (a) went up the inclined plane and (b) went down the inclined plane, determine the work done by the suspended weight. 0 = 30° 0 = 45° Car moving up incline Car moving down incline Fig. 4: Work done by the suspended weight When the car (a) went up the inclined plane and (b) went down the inclined plane, determine the work done by gravity acting on the car. 0 = 30° 0 = 45° Car moving up incline Car moving down incline