Please solve 17.32 *17-32. The motorcycle and rider have a total mass of900 kg and mass center at G. If it is traveling up the slopewith a constant acceleration of 3 m/s², determine thenormal reactions on the front and rear wheels. Also, whatis the required friction force developed on the rear wheel?The front wheel is free to roll.17-33. The motorcycle and rider have a total mass of900 kg and mass center at G. Determine the minimumcoefficient of static friction between the rear wheel and theslope in order for the rider to perform a "wheely," that is, tobegin to lift the front wheel off the road. Also, what is thecorresponding acceleration? The front wheel is free to roll.20⁰G0.5 mProbs. 17-32/330.6 m0.7 m

Total mass (Bike + Rider) = 900 kgConstant acceleration = 3 m/s2

*17-32. The motorcycle and rider have a total mass of 900 kg and mass center at G. If it is traveling up the slope with a constant acceleration of 3 m/s², determine the normal reactions on the front and rear wheels. Also, what is the required friction force developed on the rear wheel? The front wheel is free to roll.

*17-32. The motorcycle and rider have a total mass of 900 kg and mass center at G. If it is traveling up the slope with a constant acceleration of 3 m/s², determine the normal reactions on the front and rear wheels. Also, what is the required friction force developed on the rear wheel? The front wheel is free to roll.

Structural Analysis

6th Edition

ISBN:9781337630931

Author:KASSIMALI, Aslam.

Publisher:KASSIMALI, Aslam.

Chapter2: Loads On Structures

Section: Chapter Questions

Problem 1P

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Question

Please solve 17.32

*17-32. The motorcycle and rider have a total mass of
900 kg and mass center at G. If it is traveling up the slope
with a constant acceleration of 3 m/s², determine the
normal reactions on the front and rear wheels. Also, what
is the required friction force developed on the rear wheel?
The front wheel is free to roll.
17-33. The motorcycle and rider have a total mass of
900 kg and mass center at G. Determine the minimum
coefficient of static friction between the rear wheel and the
slope in order for the rider to perform a "wheely," that is, to
begin to lift the front wheel off the road. Also, what is the
corresponding acceleration? The front wheel is free to roll.
20⁰
G
0.5 m
Probs. 17-32/33
0.6 m
0.7 m

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