During a downhill skiing start, a 65 kg skier generates the following forces while beginning their race on a flat surface. A reaction force between their poles and the snow that is directed 10 degrees above the ground at a magnitude of 200 Newtons. A reaction force between the skis and the snow that is directed 35 degrees above the ground and is equal to 1100 Newtons. The coefficient of friction between the poles and the snow is 0.35 and between the skis and the snow it is 0.1. What is resultant acceleration of the skier?
During a downhill skiing start, a 65 kg skier generates the following forces while beginning their race on a flat surface. A reaction force between their poles and the snow that is directed 10 degrees above the ground at a magnitude of 200 Newtons. A reaction force between the skis and the snow that is directed 35 degrees above the ground and is equal to 1100 Newtons. The coefficient of friction between the poles and the snow is 0.35 and between the skis and the snow it is 0.1. What is resultant acceleration of the skier?
Principles of Physics: A Calculus-Based Text
5th Edition
ISBN:9781133104261
Author:Raymond A. Serway, John W. Jewett
Publisher:Raymond A. Serway, John W. Jewett
Chapter4: The Laws Of Motion
Section: Chapter Questions
Problem 29P: An object of mass m = 1.00 kg is observed to have an acceleration a with a magnitude of 10.0 m/s2 in...
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During a downhill skiing start, a 65 kg skier generates the following forces while beginning their race on a flat surface. A reaction force between their poles and the snow that is directed 10 degrees above the ground at a magnitude of 200 Newtons. A reaction force between the skis and the snow that is directed 35 degrees above the ground and is equal to 1100 Newtons. The coefficient of friction between the poles and the snow is 0.35 and between the skis and the snow it is 0.1. What is resultant acceleration of the skier?
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