2.) A 1000 kg boat is towed in the water by a cable in a straight line. The Tension in the cable is 3,000N. The coefficient of friction between the boat and the water is µ = 0.2. It starts from rest and reaches a final speed of 5m/s after some unknown distance. Angles must be shown in your work calculations. a.) What is the final kinetic energy of the boat? b.) Using the Work-Kinetic Energy Theorem, find the unknown distance.
2.) A 1000 kg boat is towed in the water by a cable in a straight line. The Tension in the cable is 3,000N. The coefficient of friction between the boat and the water is µ = 0.2. It starts from rest and reaches a final speed of 5m/s after some unknown distance. Angles must be shown in your work calculations. a.) What is the final kinetic energy of the boat? b.) Using the Work-Kinetic Energy Theorem, find the unknown distance.
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Transcribed Image Text:2.) A 1000 kg boat is towed in the water by a cable in a straight line. The Tension in the cable is
3,000N. The coefficient of friction between the boat and the water is µ = 0.2. It starts from
rest and reaches a final speed of 5m/s after some unknown distance.
Angles must be shown in your work calculations.
a.) What is the final kinetic energy of the boat?
b.) Using the Work-Kinetic Energy Theorem, find the unknown distance.
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