The car has a mass of 1.6 MgMg and center of mass at GG. If the coefficient of static friction between the shoulder of the road and the tires is μsμsmu_s = 0.40, determine the greatest slope θθ the shoulder can have without causing the car to slip or tip over if the car travels along the shoulder at constant velocity. Draw the free-body diagram of the car.
The car has a mass of 1.6 MgMg and center of mass at GG. If the coefficient of static friction between the shoulder of the road and the tires is μsμsmu_s = 0.40, determine the greatest slope θθ the shoulder can have without causing the car to slip or tip over if the car travels along the shoulder at constant velocity. Draw the free-body diagram of the car.
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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The car has a mass of 1.6 MgMg and center of mass at GG. If the coefficient of static friction between the shoulder of the road and the tires is μsμsmu_s = 0.40, determine the greatest slope θθ the shoulder can have without causing the car to slip or tip over if the car travels along the shoulder at constant velocity.
Draw the free-body diagram of the car.
Draw the vectors starting at the black dots. The location and orientation of the vectors will be graded.
Transcribed Image Text:Vectors:
FB Frictional force at point B
FA Frictional force at point A
NB Normal force at point B
2.5 ft
NA Normal force at point A
W Weight of the car
5 ft
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