Check Your Understanding Solve Example 12.1 by choosing the pivot at the location of the rear axle.

Question

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Answer 1

Textbook Question

Chapter 12, Problem 12.1CYU

Check Your Understanding Solve Example 12.1 by choosing the pivot at the location of the rear axle.

Expert Solution & Answer

To determine

The distance of the center of mass of car by assuming the pivot at the location of the rear axle.

Answer to Problem 12.1CYU

The distance of the center of mass of car by assuming the pivot at the location of the rear axle is 1.3 m.

Explanation of Solution

Given:

The car wheelbase, D is 2.5 m.

The weight on the front wheel, FF is 0.52w.

The weight on the rear wheel, ER is 0.48w.

Formula used:

The force acting along vertical direction is given by,

∑Fy=0FF+FR−w=0FF+FR=w ..... (I)

The moment about point O is given by,

∑MO=0−(2.5−x)FF+x(FR)=0 ..... (II)

Calculation:

The following figure shows the free body diagram of the given diagram.

University Physics Volume 1, Chapter 12, Problem 12.1CYU

Figure-(1)

The moment about O is calculated as,

−(2.5−x)FF+x(FR)=0x(0.48w)=(2.5−x)0.52w(0.48w)x=1.3w−(0.52w)x(1w)x=1.3w

Solve further,

x=1.3 m

Conclusion:

The distance of the center of mass of car by assuming the pivot at the location of the rear axle is 1.3 m.

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Answer 2

Textbook Question

Chapter 12, Problem 12.1CYU

Check Your Understanding Solve Example 12.1 by choosing the pivot at the location of the rear axle.

Expert Solution & Answer

To determine

The distance of the center of mass of car by assuming the pivot at the location of the rear axle.

Answer to Problem 12.1CYU

The distance of the center of mass of car by assuming the pivot at the location of the rear axle is 1.3 m.

Explanation of Solution

Given:

The car wheelbase, D is 2.5 m.

The weight on the front wheel, FF is 0.52w.

The weight on the rear wheel, ER is 0.48w.

Formula used:

The force acting along vertical direction is given by,

∑Fy=0FF+FR−w=0FF+FR=w ..... (I)

The moment about point O is given by,

∑MO=0−(2.5−x)FF+x(FR)=0 ..... (II)

Calculation:

The following figure shows the free body diagram of the given diagram.

University Physics Volume 1, Chapter 12, Problem 12.1CYU

Figure-(1)

The moment about O is calculated as,

−(2.5−x)FF+x(FR)=0x(0.48w)=(2.5−x)0.52w(0.48w)x=1.3w−(0.52w)x(1w)x=1.3w

Solve further,

x=1.3 m

Conclusion:

The distance of the center of mass of car by assuming the pivot at the location of the rear axle is 1.3 m.

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Subscribe now to access step-by-step solutions to millions of textbook problems written by subject matter experts!

Answer 3

Textbook Question

Chapter 12, Problem 12.1CYU

Check Your Understanding Solve Example 12.1 by choosing the pivot at the location of the rear axle.

Expert Solution & Answer

To determine

The distance of the center of mass of car by assuming the pivot at the location of the rear axle.

Answer to Problem 12.1CYU

The distance of the center of mass of car by assuming the pivot at the location of the rear axle is 1.3 m.

Explanation of Solution

Given:

The car wheelbase, D is 2.5 m.

The weight on the front wheel, FF is 0.52w.

The weight on the rear wheel, ER is 0.48w.

Formula used:

The force acting along vertical direction is given by,

∑Fy=0FF+FR−w=0FF+FR=w ..... (I)

The moment about point O is given by,

∑MO=0−(2.5−x)FF+x(FR)=0 ..... (II)

Calculation:

The following figure shows the free body diagram of the given diagram.

University Physics Volume 1, Chapter 12, Problem 12.1CYU

Figure-(1)

The moment about O is calculated as,

−(2.5−x)FF+x(FR)=0x(0.48w)=(2.5−x)0.52w(0.48w)x=1.3w−(0.52w)x(1w)x=1.3w

Solve further,

x=1.3 m

Conclusion:

The distance of the center of mass of car by assuming the pivot at the location of the rear axle is 1.3 m.

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Subscribe now to access step-by-step solutions to millions of textbook problems written by subject matter experts!

Answer 4

Textbook Question

Chapter 12, Problem 12.1CYU

Check Your Understanding Solve Example 12.1 by choosing the pivot at the location of the rear axle.

Expert Solution & Answer

To determine

The distance of the center of mass of car by assuming the pivot at the location of the rear axle.

Answer to Problem 12.1CYU

The distance of the center of mass of car by assuming the pivot at the location of the rear axle is 1.3 m.

Explanation of Solution

Given:

The car wheelbase, D is 2.5 m.

The weight on the front wheel, FF is 0.52w.

The weight on the rear wheel, ER is 0.48w.

Formula used:

The force acting along vertical direction is given by,

∑Fy=0FF+FR−w=0FF+FR=w ..... (I)

The moment about point O is given by,

∑MO=0−(2.5−x)FF+x(FR)=0 ..... (II)

Calculation:

The following figure shows the free body diagram of the given diagram.

University Physics Volume 1, Chapter 12, Problem 12.1CYU

Figure-(1)

The moment about O is calculated as,

−(2.5−x)FF+x(FR)=0x(0.48w)=(2.5−x)0.52w(0.48w)x=1.3w−(0.52w)x(1w)x=1.3w

Solve further,

x=1.3 m

Conclusion:

The distance of the center of mass of car by assuming the pivot at the location of the rear axle is 1.3 m.

Want to see more full solutions like this?

Subscribe now to access step-by-step solutions to millions of textbook problems written by subject matter experts!

Answer 5

Textbook Question

Answer 6

Textbook Question

Answer 7

Expert Solution & Answer

To determine

The distance of the center of mass of car by assuming the pivot at the location of the rear axle.

Answer to Problem 12.1CYU

The distance of the center of mass of car by assuming the pivot at the location of the rear axle is 1.3 m.

Explanation of Solution

Given:

The car wheelbase, D is 2.5 m.

The weight on the front wheel, FF is 0.52w.

The weight on the rear wheel, ER is 0.48w.

Formula used:

The force acting along vertical direction is given by,

∑Fy=0FF+FR−w=0FF+FR=w ..... (I)

The moment about point O is given by,

∑MO=0−(2.5−x)FF+x(FR)=0 ..... (II)

Calculation:

The following figure shows the free body diagram of the given diagram.

University Physics Volume 1, Chapter 12, Problem 12.1CYU

Figure-(1)

The moment about O is calculated as,

−(2.5−x)FF+x(FR)=0x(0.48w)=(2.5−x)0.52w(0.48w)x=1.3w−(0.52w)x(1w)x=1.3w

Solve further,

x=1.3 m

Conclusion:

The distance of the center of mass of car by assuming the pivot at the location of the rear axle is 1.3 m.

Answer 8

Expert Solution & Answer

To determine

The distance of the center of mass of car by assuming the pivot at the location of the rear axle.

Answer to Problem 12.1CYU

The distance of the center of mass of car by assuming the pivot at the location of the rear axle is 1.3 m.

Explanation of Solution

Given:

The car wheelbase, D is 2.5 m.

The weight on the front wheel, FF is 0.52w.

The weight on the rear wheel, ER is 0.48w.

Formula used:

The force acting along vertical direction is given by,

∑Fy=0FF+FR−w=0FF+FR=w ..... (I)

The moment about point O is given by,

∑MO=0−(2.5−x)FF+x(FR)=0 ..... (II)

Calculation:

The following figure shows the free body diagram of the given diagram.

University Physics Volume 1, Chapter 12, Problem 12.1CYU

Figure-(1)

The moment about O is calculated as,

−(2.5−x)FF+x(FR)=0x(0.48w)=(2.5−x)0.52w(0.48w)x=1.3w−(0.52w)x(1w)x=1.3w

Solve further,

x=1.3 m

Conclusion:

The distance of the center of mass of car by assuming the pivot at the location of the rear axle is 1.3 m.

Answer 9

Expert Solution & Answer

Answer 10

Expert Solution & Answer

Answer 11

To determine

The distance of the center of mass of car by assuming the pivot at the location of the rear axle.

Answer 12

Answer to Problem 12.1CYU

The distance of the center of mass of car by assuming the pivot at the location of the rear axle is 1.3 m.

Answer 13

Explanation of Solution

Given:

The car wheelbase, D is 2.5 m.

The weight on the front wheel, FF is 0.52w.

The weight on the rear wheel, ER is 0.48w.

Formula used:

The force acting along vertical direction is given by,

∑Fy=0FF+FR−w=0FF+FR=w ..... (I)

The moment about point O is given by,

∑MO=0−(2.5−x)FF+x(FR)=0 ..... (II)

Calculation:

The following figure shows the free body diagram of the given diagram.

University Physics Volume 1, Chapter 12, Problem 12.1CYU

Figure-(1)

The moment about O is calculated as,

−(2.5−x)FF+x(FR)=0x(0.48w)=(2.5−x)0.52w(0.48w)x=1.3w−(0.52w)x(1w)x=1.3w

Solve further,

x=1.3 m

Conclusion:

The distance of the center of mass of car by assuming the pivot at the location of the rear axle is 1.3 m.

Answer 14

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Check Your Understanding Solve Example 12.1 by choosing the pivot at the location of the rear axle.

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