John is standing on one foot and is in static equilibrium. Determine the ankle, knee and hip joint reaction forces in the x and y direction. Mass of the foot = 1 kg Mass of the leg = 3 kg Mass of the thigh = 8 kg GRFx = -50 N GRFy = 800 N Based on the information above, calculate the JRF at the ankle in both the x and y direction (only complete the ankle - the knee and hip will follow). Be sure to show your work and identify your final values.
John is standing on one foot and is in static equilibrium. Determine the ankle, knee and hip joint reaction forces in the x and y direction. Mass of the foot = 1 kg Mass of the leg = 3 kg Mass of the thigh = 8 kg GRFx = -50 N GRFy = 800 N Based on the information above, calculate the JRF at the ankle in both the x and y direction (only complete the ankle - the knee and hip will follow). Be sure to show your work and identify your final values.
Elements Of Electromagnetics
7th Edition
ISBN:9780190698614
Author:Sadiku, Matthew N. O.
Publisher:Sadiku, Matthew N. O.
ChapterMA: Math Assessment
Section: Chapter Questions
Problem 1.1MA
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John is standing on one foot and is in static equilibrium. Determine the ankle, knee and hip joint reaction forces in the x and y direction. Mass of the foot = 1 kg
Mass of the leg = 3 kg
Mass of the thigh = 8 kg
GRFx = -50 N
GRFy = 800 N
Based on the information above, calculate the JRF at the ankle in both the x and y direction (only complete the ankle - the knee and hip will follow). Be sure to show your work and identify your final values.
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