Principles of Physics: A Calculus-Based Text
Principles of Physics: A Calculus-Based Text
5th Edition
ISBN: 9781133104261
Author: Raymond A. Serway, John W. Jewett
Publisher: Cengage Learning
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Chapter 1, Problem 13P
To determine

The radius of a solid aluminum sphere that balance a solid iron sphere on an equal arm balance.

Expert Solution & Answer
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Answer to Problem 13P

The radius of a solid aluminum sphere is 2.86cm that balance a solid iron sphere on an equal arm balance.

Explanation of Solution

Section 1:

To determine: The density of the aluminum sphere.

Answer: The density of the aluminum sphere is 2.70×103kg/m3 .

Given information:

The mass of one cubic meter aluminum is 2.70×103kg and the mass of one cubic meter iron is 7.86×103kg . The radius of the solid iron sphere is 2.0cm .

Formula to calculate the density of aluminum sphere is,

ρalu=m1V1

  • ρalu is the density of the aluminum sphere.
  • m1 is the mass of one cubic meter aluminum sphere.
  • V1 is the volume of the aluminum sphere.

Substitute 2.70×103kg for m1 and 1.0m3 for V1 to find ρalu .

ρalu=2.70×103kg1.0m3=2.70×103kg/m3

Section 2:

To determine: The density of the iron sphere.

Answer: The density of the iron sphere is 7.86×103kg/m3 .

Given information:

The mass of one cubic meter aluminum is 2.70×103kg and the mass of one cubic meter iron is 7.86×103kg . The radius of the solid iron sphere is 2.0cm .

Formula to calculate the density of iron sphere is,

ρiron=m2V2

  • ρiron is the density of the iron sphere.
  • m2 is the mass of one cubic meter iron sphere.
  • V2 is the volume of the iron sphere.

Substitute 7.86×103kg for m1 and 1.0m3 for V1 to find ρiron .

ρiron=7.86×103kg1.0m3=7.86×103kg/m3

Section 3:

To determine: The radius of a solid aluminum sphere that balance a solid iron sphere on an equal arm balance.

Answer: The radius of a solid aluminum sphere is 2.86cm that balance a solid iron sphere on an equal arm balance.

Given information:

The mass of one cubic meter aluminum is 2.70×103kg and the mass of one cubic meter iron is 7.86×103kg . The radius of the solid iron sphere is 2.0cm .

Formula to calculate the mass of a aluminum sphere is,

malu=ρaluValu

Formula to calculate the volume of a aluminum sphere is,

Valu=43πralu3

  • ralu is the radius of the aluminum sphere.

Substitute 43πralu3 for Valu .

malu=ρalu43πralu3=43πralu3ρalu (I)

Formula to calculate the mass of a solid iron sphere of radius 2.0cm is,

miron=ρironViron

Formula to calculate the volume of iron sphere is,

Viron=43πriron3

  • riron is the radius of the iron sphere.

Substitute 43πriron3 for Viron .

miron=ρiron43πriron3=43πriron3ρiron (II)

Since both sphere must balance to each other on an equal arm balance. So, they both have equal mass.

Equating equation (I) and equation (II),

malu=miron43πralu3ρalu=43πriron3ρironralu3ρalu=riron3ρironralu=ρironρalu3riron

Substituting 2.0cm for riron , 7.86×103kg/m3 for ρiron and 2.70×103kg/m3 for ρalu to find ralu .

ralu=(7.86×103kg/m32.70×103kg/m33)(2.0cm)=1.427×2.0cm=2.86cm

Conclusion:

Therefore, the radius of a solid aluminum sphere is 2.86cm that balance a solid iron sphere on an equal arm balance.

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Chapter 1 Solutions

Principles of Physics: A Calculus-Based Text

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