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A force F→ is applied to a 1.5 -kg radio-controlled model car parallel to the x-axis as it moves along a straight track. The x-component of the force varies with the x-coordinate of the car as shown below. The model car is initially at rest at x = 0. Use the work-energy theorem to find the speed of the car at the following locations. (a) x = 2.0 m m/s (b) x = 3.0 m m/s (c) x = 4.0 m m/s

A force F→ is applied to a 1.5 -kg radio-controlled model car parallel to the x-axis as it moves along a straight track. The x-component of the force varies with the x-coordinate of the car as shown below. The model car is initially at rest at x = 0. Use the work-energy theorem to find the speed of the car at the following locations. (a) x = 2.0 m m/s (b) x = 3.0 m m/s (c) x = 4.0 m m/s

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A force F is applied to a 1.5 -kg radio-controlled model car parallel to the x -axis as it moves along a straight track. The x -component of the force varies with the x -coordinate of the car as shown below. The model car is initially at rest at x = 0 . Use the work-energy theorem to find the speed of the car at the following locations. (a) x = 2.0 m m / s (b) x = 3.0 m m / s (c) x = 4.0 m m / s

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