The 0.8-Mg car travels over the hill having the shape of a parabola. When the car is at point A, it is traveling at 9 m/s and increasing its speed at 3 m/s². Determine both the resultant normal force and the resultant frictional force that all the wheels of the car exert on the road at this instant. Neglect the size of the car.
The 0.8-Mg car travels over the hill having the shape of a parabola. When the car is at point A, it is traveling at 9 m/s and increasing its speed at 3 m/s². Determine both the resultant normal force and the resultant frictional force that all the wheels of the car exert on the road at this instant. Neglect the size of the car.
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![The 0.8-Mg car travels over the hill
having the shape of a parabola. When
the car is at point A, it is traveling at 9
m/s and increasing its speed at 3 m/s².
Determine both the resultant normal
force and the resultant frictional force
that all the wheels of the car exert on
the road at this instant. Neglect the
size of the car.
-y=20 (1-6400)
-80 m](/v2/_next/image?url=https%3A%2F%2Fcontent.bartleby.com%2Fqna-images%2Fquestion%2Fd2180800-2ceb-40c5-ac01-b9cac3b491ab%2F35e18691-071e-40cb-b4f0-2ab517b9423e%2Ffbsczpl_processed.jpeg&w=3840&q=75)
Transcribed Image Text:The 0.8-Mg car travels over the hill
having the shape of a parabola. When
the car is at point A, it is traveling at 9
m/s and increasing its speed at 3 m/s².
Determine both the resultant normal
force and the resultant frictional force
that all the wheels of the car exert on
the road at this instant. Neglect the
size of the car.
-y=20 (1-6400)
-80 m
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