College Physics
College Physics
10th Edition
ISBN: 9781285737027
Author: Raymond A. Serway, Chris Vuille
Publisher: Cengage Learning
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Chapter 10, Problem 21P

A hollow aluminum cylinder 20.0 cm deep has an internal capacity of 2.000 L at 20.0°C. It is completely filled with turpentine at 20.0°C. The turpentine and the aluminum cylinder are then slowly warmed together to 80.0°C. (a) How much turpentine overflows? (b) What is the volume of the turpentine remaining in the cylinder at 80.0°C? (c) If the combination with this amount of turpentine is then cooled back to 20.0°C, how far below the cylinder’s rim does the turpentine’s surface recede?

(a)

Expert Solution
Check Mark
To determine
The volume of turpentine that has overflowed.

Answer to Problem 21P

The volume of turpentine that has overflowed is 99 mL.

Explanation of Solution

Given Info: The length of the hollow cylinder (l) is 20.0 cm. The capacity of the cylinder ( V0 ) is 2.000 L at T1=20.0οC . The temperature is changed to T2=80.0οC . The co-efficient of volume expansion of turpentine is βT=9.0×104/οC . The co-efficient of volume expansion of aluminum is βAl=72×106/οC .

Formula to calculate the volume of turpentine that has overflowed is,

Vof=ΔVTΔVAl       (I)

  • ΔVT is the change in volume of turpentine.
  • ΔVAl is the change in volume of Aluminum.

Formula to calculate the change in volume of turpentine is,

ΔVT=V0βT(T2T1)       (II)

Formula to calculate the change in volume of aluminum is,

ΔVAl=V0βAl(T2T1)       (III)

Substitute Equations (II) and (III) in (I).

Vof=V0(T2T1)(βTβAl)

Substitute 2.000 L for V0 , 20.0οC for T1 , 80.0οC for T2 , 9.0×104/οC for βT and 72×106/οC for βAl in the above expression to get Vof .

Vof=(2.000L)[(80.0οC)(20.0οC)][(9.0×104/οC)(72×106/οC)]=99mL

Conclusion:

The volume of turpentine that has overflowed is 99 mL.

(b)

Expert Solution
Check Mark
To determine
The volume of turpentine remaining.

Answer to Problem 21P

The volume of turpentine remaining is 2.009 L.

Explanation of Solution

Given Info: The length of the hollow cylinder (l) is 20.0 cm. The capacity of the cylinder ( V0 ) is 2.000 L at T1=20.0οC . The temperature is changed to T2=80.0οC . The co-efficient of volume expansion of turpentine is βT=9.0×104/οC . The co-efficient of volume expansion of aluminum is βAl=72×106/οC .

Volume of turpentine remaining ( Vr ) is equal to the volume of aluminum cylinder. Therefore, the formula to calculate the remaining volume is,

Vr=V0[1+βAl(T2T1)]

Substitute 2.000 L for V0 , 20.0οC for T1 , 80.0οC for T2 and 72×106/οC for βAl in the above expression to get Vr

Vr=(2.000L)[1+(72×106/οC)[(80.0οC)(20.0οC)]]=2.009L

Conclusion:

The volume of turpentine remaining is 2.009 L.

(c)

Expert Solution
Check Mark
To determine
The distance between the rim and the surface of turpentine (h).

Answer to Problem 21P

The distance between the rim and the surface of turpentine (h) is 1 cm.

Explanation of Solution

Given Info: The length of the hollow cylinder (l) is 20.0 cm. The capacity of the cylinder ( V0 ) is 2.000 L at T1=20.0οC . The temperature is changed to T2=80.0οC . The co-efficient of volume expansion of turpentine is βT=9.0×104/οC . The co-efficient of volume expansion of aluminum is βAl=72×106/οC .

Formula to calculate the volume of turpentine remaining at 20.0οC is,

Vr'=Vr[1+βT(T1T2)]       (IV)

The fraction of empty volume is,

f=1Vr'V0       (V)

The fraction of empty volume is also equal to the ratio of the distance between the rim and the surface of turpentine and the length of the cylinder.

f=hl       (VI)

From Equations (IV), (V) and (VI),

h=l{1Vr[1+βT(T1T2)]V0}

Substitute 20.0 cm for l, 2.009 L for Vr , 2.000 L for V0 , 20.0οC for T1 , 80.0οC for T2 and 9.0×104/οC for βT in the above expression to get h.

h=(20.0cm){1(2.009L)[1+(9.0×104/οC)[(20.0οC)(80.0οC)]]2.000L}=1cm

Conclusion:

The distance between the rim and the surface of turpentine (h) is 1 cm.

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Chapter 10 Solutions

College Physics

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