Back Wheel R a Bg Front Wheel Shown above is side view of a car diving.. Front wheels are motorized and back wheels spin freely. Bg - Car gravity force Gravity constant is 9.8 m/s^2 Fiction coefficient u is 0.76 Fu Find the friction force of the car using the forces in the free body diagram in the figure. (You may not need to use all the forces). Assume quasi-static analysis, the car is moving to the right in linear motion, and the motors do not stall. Take the moment about the pivot Point K (the center) of the front wheel. State any additional assumptions if used. Rreaction force F friction force a distance from the center of the back wheel to the center of gravity of the car b-distance from the center of the car to point K

Back Wheel R a Bg Front Wheel Shown above is side view of a car diving.. Front wheels are motorized and back wheels spin freely. Bg - Car gravity force Gravity constant is 9.8 m/s^2 Fiction coefficient u is 0.76 Fu Find the friction force of the car using the forces in the free body diagram in the figure. (You may not need to use all the forces). Assume quasi-static analysis, the car is moving to the right in linear motion, and the motors do not stall. Take the moment about the pivot Point K (the center) of the front wheel. State any additional assumptions if used. Rreaction force F friction force a distance from the center of the back wheel to the center of gravity of the car b-distance from the center of the car to point K

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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Question

Back Wheel
R
a
Bg
b
Front Wheel
K
Fu
Shown above is side view of a car diving.. Front wheels are motorized and back wheels spin
freely.
Find the friction force of the car using the forces in the free body diagram in the figure. (You
may not need to use all the forces).
Assume quasi-static analysis, the car is moving to the right in linear motion, and the motors
do not stall.
Take the moment about the pivot Point K (the center) of the front wheel.
State any additional assumptions if used.
R- reaction force
F - friction force
a - distance from the center of the back wheel to the center of gravity of the car
b- distance from the center of the car to point K
Bg - Car gravity force
Gravity constant is 9.8 m/s^2
Fiction coefficient u is 0.76

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