EBK VECTOR MECHANICS FOR ENGINEERS: STA
EBK VECTOR MECHANICS FOR ENGINEERS: STA
11th Edition
ISBN: 8220102809888
Author: BEER
Publisher: YUZU
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Chapter 5.1, Problem 5.17P

Show that as r1 approaches r2, the location of the centroid approaches that for an arc of circle of radius (r1 + r2)/2.

Chapter 5.1, Problem 5.17P, Show that as r1 approaches r2, the location of the centroid approaches that for an arc of circle of

Expert Solution & Answer
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To determine

To show that as r1 approaches r2 the location of the centroid approaches that for an arc of circle of radius r1+r22.

Answer to Problem 5.17P

The location of the centroid for an arc of circle of radius r1+r22 is (12)(r1+r2)(cosα90°α)_.

Explanation of Solution

Write the expression for the y-coordinate of the centroid of the sector with radius r2.

y2¯=(23)r2(sin(90°α)90°α)=(23)r2(cosα90°α) (I)

Here y2¯ is the y-coordinate of the centroid of the sector with radius r2.

Write the expression for the area of the sector with radius r2.

A=(90°α)r22 (II)

A is the radius of the sector with radius r2.

Write the expression for the y-coordinate of the centroid of the sector with radius r1.

y1¯=(23)r1(sin(90°α)90°α)=(23)r1(cosα90°α) (III)

Here y1¯ is the y-coordinate of the centroid of the sector with radius r1.

Write the expression for the area of the sector with radius r1.

A=(90°α)r12 (IV)

A is the radius of the sector with radius r1.

Write the expression for y¯A.

y¯A=(y2¯)A(y1¯)A

Substitute (I), (II), (III) and (IV) in the above equation to calculate y¯A.

y¯A=((23)r2(cosα90°α))(90°α)r22((23)r1(cosα90°α))(90°α)r12=(23)(r23r13)cosα (V)

Write the expression for A.

A=AA

Substitute (II) and (IV) in the above equation to calculate A.

A=(90°α)r22(90°α)r12=(90°α)(r22r12) (VI)

Write the expression to calculate the y-coordinate of the centroid of the given area.

Y¯A=y¯A

Y¯ is the y-coordinate of the centroid of the given area.

Substitute (V) and (VI) in the above equation to calculate Y¯.

Y¯((90°α)(r22r12))=(23)(r23r13)cosαY¯=(23)(r23r13)(r22r12)(cosα90°α) (VII)

Write the expression for the y-coordinate of the centroid with an arc of radius r1+r22.

y¯=(r1+r22)(sin(90°α)90°α)=(r1+r22)(cosα90°α) (VIII)

Rewrite the expression (r23r13)(r22r12).

(r23r13)(r22r12)=(r2r1)(r22+r1r2+r12)(r2r1)(r2+r1)=(r22+r1r2+r12)(r2+r1) (IX)

Let r2=r+Δ and r1=r+Δ, where Δ is a small variation in r.

Substitute the above two expressions in (VIII) to rewrite.

(r23r13)(r22r12)=((r+Δ)2+(r+Δ)(rΔ)+(rΔ)2)(r+Δ+rΔ)=r2+2rΔ+Δ2+r2+rΔΔrΔ2+r22rΔ+Δ22r=3r2+Δ22r (X)

Apply the limits Δ0 (r1=r2) in the above expression to rewrite.

(r23r13)(r22r12)=3r2+022r=32r (XI)

Rewrite r using r1 and r2 in the above equation.

(r23r13)(r22r12)=32(12)(r1+r2)=34(r1+r2) (XII)

Conclusion:

Substitute (XII) in (VII) to calculate Y¯.

Y¯=(23)(34)(r1+r2)(cosα90°α)=(12)(r1+r2)(cosα90°α)

Therefore, the above expression is same as that of the expression given in (VIII).

Thus, the location of the centroid for an arc of circle of radius r1+r22 is (12)(r1+r2)(cosα90°α)_.

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Chapter 5 Solutions

EBK VECTOR MECHANICS FOR ENGINEERS: STA

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