EBK PHYSICS FOR SCIENTISTS AND ENGINEER
EBK PHYSICS FOR SCIENTISTS AND ENGINEER
9th Edition
ISBN: 9780100454897
Author: Jewett
Publisher: YUZU
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Chapter 32, Problem 32.60AP

Review. Consider a capacitor with vacuum between its large, closely spaced, oppositely charged parallel plates. (a) Show that the force on one plate can be accounted for by thinking of the electric field between the plates as exerting a “negative pressure” equal to the energy density of the electric field. (b) Consider two infinite plane sheets carrying electric currents in opposite directions with equal linear current densities Js. Calculate the force per area acting on one sheet due to the magnetic field, of magnitude μ0Js/2, created by the other sheet. (c) Calculate the net magnetic field between the sheets and the field outside of the volume between them. (d) Calculate the energy density in the magnetic field between the sheets. (e) Show that the force on one sheet can be accounted for by thinking of the magnetic field between the sheets as exerting a positive pressure equal to its energy density. This result for magnetic pressure applies to all current configurations, not only to sheets of current.

(a)

Expert Solution
Check Mark
To determine

To show: The force on one plate can be accounted for by thinking of the electrical field between the plates as exerting a negative pressure equal to the energy density of the electric field.

Answer to Problem 32.60AP

The force on one plate can be accounted for by thinking of the electrical field between the plates as exerting a negative pressure equal to the energy density of the electric field.

Explanation of Solution

The formula to force between the plates of capacitor is,

F=Q220A

Here,

Q is the charge on capacitor plate.

A is the area of capacitor plate.

0 is the permittivity of free space.

The formula to calculate electric field produced by negative capacitor plate is,

En=Q20A

The formula to calculate electric field produced by positive capacitor plate is,

Ep=Q20A

The formula to calculate net electric field produced between the plates is,

E=EnEp

Substitute Q20A for En and Q20A for Ep in the above equation.

E=Q20A(Q20A)=Q0A

The energy density of capacitor is,

uE=120E2

Substitute Q20A for E in the above equation.

uE=120(Q0A)2=120Q202A2=12Q20A2

Rearrange above equation.

F=Q220A=12Q20A2(A)=PA

Here,

P is the pressure.

A is the area.

Hence, the force on one plate can be accounted for by thinking of the electrical field between the plates as exerting a negative pressure equal to the energy density of the electric field.

Conclusion:

Therefore, the force on one plate can be accounted for by thinking of the electrical field between the plates as exerting a negative pressure equal to the energy density of the electric field.

(b)

Expert Solution
Check Mark
To determine
The force per area acting on one sheet due to the magnetic field.

Answer to Problem 32.60AP

The force per area acting on one sheet due to the magnetic field is μJx22 .

Explanation of Solution

Given info: The current density of capacitor plates is Jx and the magnetic field produced by one plate on another is μ0Jx2 .

The formula to calculate the force on one capacitor plate is,

F=I(l×B)

Here,

I is the current of capacitor plate.

l is the length vector.

B is the magnetic field vector.

Substitute Jx×w for I and μ0Jx2 for B in the above equation.

F=Jx×w(l)(μ0Jx2)sin90°=Jxw(l)(μ0Jx2)=w(l)(μ0Jx22)

The formula to calculate the force per area acting on one sheet is,

P=FA

Substitute w(l)(μ0Jx22) for F and wl for A in the above equation.

P=w(l)(μ0Jx22)wl=μ0Jx22

Conclusion:

Therefore, the force per area acting on one sheet due to the magnetic field is μJx22 .

(c)

Expert Solution
Check Mark
To determine
The net magnetic field between the sheets and the field outside of the volume between them.

Answer to Problem 32.60AP

The net magnetic field between the sheets is μ0Jx and the field outside of the volume between them is zero.

Explanation of Solution

The formula to calculate the magnetic field due to positive sheet is,

Bp=μ0Jx2

The formula to calculate the magnetic field due to positive sheet is,

Bn=μ0Jx2

The formula to calculate the net magnetic field between the sheets is,

B=BpBn

Substitute μ0Jx2 for Bp and μ0Jx2 for Bn in the above equation.

B=μ0Jx2(μ0Jx2)=μ0Jx

The formula to calculate the net magnetic field outside the sheets is,

B=BpBp

Substitute μ0Jx2 for Bp in the above equation.

B=μ0Jx2μ0Jx2=0

Conclusion:

Therefore, the net magnetic field between the sheets is μ0Jx and the field outside of the volume between them is zero.

(d)

Expert Solution
Check Mark
To determine
The energy density in the magnetic field between the sheets.

Answer to Problem 32.60AP

The energy density in the magnetic field between the sheets is μ0Jx22 .

Explanation of Solution

The formula to calculate energy density in the magnetic field between the sheets is,

uB=12μB2

Substitute μ0Jx for B in the above equation.

uB=12μ0(μ0Jx)2=μ0Jx22

Conclusion:

Therefore, the energy density in the magnetic field between the sheets is μ0Jx22 .

(e)

Expert Solution
Check Mark
To determine

To show: The force on one sheet can be accounted for by thinking of the magnetic field between the sheets as exerting a positive pressure equal to its energy density.

Answer to Problem 32.60AP

The force on one sheet can be accounted for by thinking of the magnetic field between the sheets as exerting a positive pressure equal to its energy density.

Explanation of Solution

Given info: The current density of capacitor plates is Jx and the magnetic field produced by one plate on another is μ0Jx2 .

From part (b) the force per area acting on one sheet due to the magnetic field is μ0Jx2 .

From part (d) the energy density in the magnetic field between the sheets is μ0Jx22 .

Both the energy density in the magnetic field and the force per area acting on one sheet due to the magnetic field are equal. Hence, the force on one sheet can be accounted for by thinking of the magnetic field between the sheets as exerting a positive pressure equal to its energy density.

Conclusion:

Therefore, the force on one sheet can be accounted for by thinking of the magnetic field between the sheets as exerting a positive pressure equal to its energy density.

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Chapter 32 Solutions

EBK PHYSICS FOR SCIENTISTS AND ENGINEER

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