Physics for Scientists and Engineers: Foundations and Connections
Physics for Scientists and Engineers: Foundations and Connections
1st Edition
ISBN: 9781133939146
Author: Katz, Debora M.
Publisher: Cengage Learning
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Chapter 19, Problem 19PQ
To determine

The coefficient of volume expansion of the liquid.

Expert Solution & Answer
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Answer to Problem 19PQ

The coefficient of volume expansion of the liquid is 8.3×104°C1_.

Explanation of Solution

After the ball sinks, the buoyant force from the displaced liquid must be equal to the gravitational force of the sphere.

Write the expression for the gravitational force of the sphere.

  Fg=mg                                                                                                            (I)

Here, Fg is the gravitational force on the sphere, m is the mass of the sphere, and g is the acceleration due to gravity.

Write the expression for the buoyant force due to the displaced liquid.

  Fb=43πR3ρg                                                                                                  (II)

Here, Fb is the buoyant force due to displaced liquid, R is the radius of the sphere, and ρ is the density of the liquid.

Write the expression to find the radius of the sphere.

  R=d2                                                                                                             (III)

Here, d is the dimeter of the sphere.

Equate the right hand sides of equations (I) and (II) and solve for ρ.

  mg=43πR3ρgρ=3m4πR3                                                                                               (IV)

As the temperature of the liquid increases, the volume of the liquid expands.

Write the expression to find the final volume of the liquid after the expansion of liquid.

  V=V0+β(T2T1)V0                                                                                       (V)

Here, V is the volume of the liquid at temperature T2, V0 is the volume at temperature T1, β is the coefficient of volume expansion, T2 is the final temperature, and T1 is the initial temperature of the liquid.

The mass of the liquid always remain constant at all the temperature and is equal to the product of density and the volume of the liquid.

  m=ρV=ρ0V0                                                                                                (VI)

From equation (VI) it can be deduced that,

  ρ0ρ=VV0                                                                                                         (VII)

From equation (V), take the ratio between the volumes of liquid.

  VV0=1+β(T2T1)                                                                                       (VIII)

Use equation (VIII) in (VII).

  ρ0ρ=1+β(T2T1)                                                                                         (IX)

Solve equation (IX) for β.

β=(ρ0ρ1)T2T1 (X)

Conclusion:

Given that the density of the liquid at 0°C is 1.527g/cm3. The sphere sinks at a temperature of 35°C.

Substitute 7.00cm for d in equation (III) to find R.

  R=7.00cm2=3.5cm

Substitute 266.5g for m, and 3.5cm for R in equation (IV) to find ρ.

  ρ=3(266.5g×1kg1000g)4π(3.5cm×1m100cm)3=1.484×103kg/m3

Substitute 1.527g/cm3 for ρ0, 1.484×103kg/m3 for ρ, 0°C for T1, and 35°C for T2 in equation (X) to find β.

  β=(1.527g/cm3×1kg1000g×1cm31×106m31.484×103kg/m31)(35°C0°C)=8.3×104°C1

Therefore, the coefficient of volume expansion of the liquid is 8.3×104°C1_.

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Chapter 19 Solutions

Physics for Scientists and Engineers: Foundations and Connections

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