2000-lb bike with a rear wheel drive has a wheelbase of 10 ft. The c.g. is 3 ft above the pavement and 4 ft ahead of the rear wheels. The coefficient of friction is 0.60 between the tires and the pavement. Determine the inertia force on the motorcycle when the acceleration is maximum
2000-lb bike with a rear wheel drive has a wheelbase of 10 ft. The c.g. is 3 ft above the pavement and 4 ft ahead of the rear wheels. The coefficient of friction is 0.60 between the tires and the pavement. Determine the inertia force on the motorcycle when the acceleration is maximum
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
A 2000-lb bike with a rear wheel drive has a
wheelbase of 10 ft. The c.g. is 3 ft above the
pavement and 4 ft ahead of the rear wheels.
The coefficient of friction is 0.60 between the
tires and the pavement.
Determine the inertia force on the
motorcycle when the acceleration is
maximum.
a. 2846.57 lbs b. 2675.66 lbs
c. 2864.75 lbs d. 2666.75 lbs
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