EBK WEBASSIGN FOR KATZ'S PHYSICS FOR SC
EBK WEBASSIGN FOR KATZ'S PHYSICS FOR SC
1st Edition
ISBN: 9781337684668
Author: Katz
Publisher: VST
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Chapter 15, Problem 25PQ

A hollow copper (ρCu = 8.92 × 103 kg/m3) spherical shell of mass m = 0.950 kg floats on water with its entire volume below the surface. a. What is the radius of the sphere? b. What is the thickness of the shell wall?

(a)

Expert Solution
Check Mark
To determine

The radius of the sphere.

Answer to Problem 25PQ

The radius of the sphere is 6.10cm.

Explanation of Solution

Since the sphere is in equilibrium condition so that weight of the spherical shell is equal to the buoyant force of the water.

  Fg=FB                                                                                   (I)

Here, Fg is the force due to gravity and FB is the buoyant force.

Write the expression for force due to gravity.

  Fg=mg                                                                                  (II)

Here, m is the mass of the copper spherical shell and g is the acceleration due to gravity.

Write the expression for buoyant force.

  FB=ρwaterVg                                                                          (III)

Here, ρwater is the density of the water and V is the volume of the spherical shell.

Write the expression for volume of the spherical shell.

  V=43πrouter3                                                                           (IV)

Here, router is the outer radius of the sphere.

Conclusion:

Substitute the equation (II) and (III) in the equation (I).

  mg=ρwaterVg

Substitute equation (IV) in the above equation to solve for .

  mg=ρwater43πrouter3gm=ρwater43πrouter3router3=3m4πρwaterrouter=(3m4πρwater)1/3

Substitute 0.950kg for m and 1000kg/m3 for ρwater in the above equation to find router.

  router=(3(0.950kg)4(3.14)(1000kg/m3))1/3=0.0610m(100cm1m)=6.10cm

Therefore, the radius of the sphere is 6.10cm.

(b)

Expert Solution
Check Mark
To determine

The thickness of the shell wall.

Answer to Problem 25PQ

The thickness of the shell wall is 2.37×103m.

Explanation of Solution

Write the expression for mass of the ball.

  m=ρCuV

Here, m is the mass of the ball, ρCu is the density of the copper, and V is the volume of the spherical shell.

Rearrange the above equation for volume of the inner and outer radius of the sphere.

  m=ρCu(43πro343πri3)                                                                        (V)

Here, ro is the outer radius of the sphere and ri is the inner radius of the sphere.

Write the expression for thickness of the shell wall.

  Δr=rori                                                                                             (VI)

Here, Δr is the thickness of the shell wall.

Conclusion:

Substitute 8.92×103kg/m3 for ρCu, 0.950kg for m, and 0.0610m for ro in the equation (V).(0.950kg)=(8.92×103kg/m3)(43π)[(0.0610m)3ri3]0.950kg8.92×103kg/m3=(4.187)[(0.0610m)3ri3]1.065×104m3=9.503×104m34.187ri31.065×104m39.503×104m3=4.187ri3

Solve the above equation to find ri.

  8.438×104m3=4.187ri3ri3=2.015×104m3ri=(2.015×104m3)1/3=5.86cm

Substitute 5.86cm for ri and 6.10cm for ro in the equation (VI) to find Δr.

  Δr=6.10cm5.86cm=0.24cm(102m1cm)=2.37×103m2.4×103m

Therefore, the thickness of the shell wall is 2.37×103m.

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Chapter 15 Solutions

EBK WEBASSIGN FOR KATZ'S PHYSICS FOR SC

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