As shown in the figure below, two people sit in a car that weighs 8,000 N. The person in front weighs 700 N, while the one in the back weighs 900 N. Call L be the distance between the front and the back wheels. The car's center of gravity is a distance 0.4L behind the front wheels. As a mechanical engineer, calculate the force each front wheel and back wheel support if the people are seated along the centerline of the car. L/2 L/3 L

As shown in the figure below, two people sit in a car that weighs 8,000 N. The person in front weighs 700 N, while the one in the back weighs 900 N. Call L be the distance between the front and the back wheels. The car's center of gravity is a distance 0.4L behind the front wheels. As a mechanical engineer, calculate the force each front wheel and back wheel support if the people are seated along the centerline of the car. L/2 L/3 L

International Edition---engineering Mechanics: Statics, 4th Edition

4th Edition

ISBN:9781305501607

Author:Andrew Pytel And Jaan Kiusalaas

Publisher:Andrew Pytel And Jaan Kiusalaas

Chapter1: Introduction To Statics

Section: Chapter Questions

Problem 1.17P: A man weighs 170 lb on the surface of the earth. Compute his weight in an airplane flying at an...

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Please help me for the complete solution of the two problems. Thank you.

9. As shown in the figure below, two people sit in a car that weighs 8,000 N. The
person in front weighs 700 N, while the one in the back weighs 900 N. Call L be
the distance between the front and the back wheels. The car's center of gravity is
a distance 0.4L behind the front wheels. As a mechanical engineer, calculate the
force each front wheel and back wheel support if the people are seated along the
centerline of the car.
L/2
L/3
L

10. The beam in the figure weighs 300 N and is uniform. If W, is 500 N, determine W,
to maintain equilibrium of the system.
|30°.
40°
0.30 L
120°
0.70 L
Fwi
Fw2

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