Physics
Physics
5th Edition
ISBN: 9781260486919
Author: GIAMBATTISTA
Publisher: MCG
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Chapter 10, Problem 18P

(a)

To determine

The average cross sectional area of the tibia.

(a)

Expert Solution
Check Mark

Answer to Problem 18P

The average cross sectional area of the tibia is 3.6cm2.

Explanation of Solution

Write an expression for the average cross sectional area of the tibia.

A=πro2+πri2=π(ro2+ri2)=π((do2)2+(di2)2)=π4(do2+di2) (I)

Here, A is the cross sectional area, ro is the outer radius, ri is the inner radius, ro is the outer radius, do is the outer diameter and di is the inner diameter.

Conclusion:

Substitute 2.5cm is do and 1.3cm for di in equation (I) to find A.

A=π4(((2.5cm)(1m102cm))2+((1.3cm)(1m102cm))2)=π4((2.5×102m)2+(1.3×102m)2)=(3.6×104m2)(1cm2104m2)=3.6cm2

Thus, the average cross sectional area of the tibia is 3.6cm2.

(b)

To determine

The compressive stress in the tibia.

(b)

Expert Solution
Check Mark

Answer to Problem 18P

The compressive stress in the tibia is 7.8×106Pa.

Explanation of Solution

Write an expression for the compressive stress in the tibia.

s=FA (II)

Here, s is the compressive stress and F is the force.

Conclusion:

Substitute 2800N for F and 3.6×104m2 for A in equation (II) to find s.

s=2800N(3.6cm2)(1m2104cm2)=2800N3.6×104m2=7.8×106Pa

Thus, the compressive stress in the tibia is 7.8×106Pa.

(c)

To determine

The change in length of the tibia due to the compressive forces.

(c)

Expert Solution
Check Mark

Answer to Problem 18P

The change in length of the tibia due to the compressive forces is 3.3×104m.

Explanation of Solution

Write an expression for the change in length of the tibia due to the compressive forces.

ΔL=FLAY (III)

Here, ΔL is the change in length of the tibia due to the compressive forces, L is the length of tibia and Y is the Young’s constant.

Conclusion:

Substitute 2800N for F, 0.40m for L, 3.6cm2 for A and 9.4×109Pa for Y in equation (III) to find ΔL.

ΔL=(2800N)(0.40m)((3.6cm2)(1m2104cm2))(9.4×109Pa)=(2800N)(0.40m)(3.6×104m2)(9.4×109Pa)=3.3×104m

Thus, the change in length of the tibia due to the compressive forces is 3.3×104m.

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Chapter 10 Solutions

Physics

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