EBK PHYSICS FOR SCIENTISTS AND ENGINEER
EBK PHYSICS FOR SCIENTISTS AND ENGINEER
9th Edition
ISBN: 8220100654428
Author: Jewett
Publisher: Cengage Learning US
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Chapter 34, Problem 34.46P

A large, flat sheet carries a uniformly distributed electric current with current per unit width Js. This current creates a magnetic field on both sides of the sheet, parallel to the sheet and perpendicular to the current, with magnitude B = 1 2 μ 0 J s . If the current is in the y direction and oscillates in time according to

J max ( cos ω t ) j ^ = J max [ cos ( ω t ) ] j ^

the sheet radiates an electromagnetic wave. Figure P33.28 shows such a wave emitted from one point on the sheet chosen to be the origin. Such electromagnetic waves arc emitted from all points on the sheet. The magnetic field of the wave to the right of the sheet is described by the wave function

B = 1 2 μ 0 J max [ cos ( k x ω t ) ] k ^

(a) Find the wave function for the electric field of the wave to the right of the sheet. (b) Find the Poynting vector as a function of x and t. (c) Find the intensity of the wave. (d) What If? If the sheet is to emit radiation in each direction (normal to the plane of the sheet) with intensity 570 W/m2, what maximum value of sinusoidal current density is required?

Figure P33.28

Chapter 34, Problem 34.46P, A large, flat sheet carries a uniformly distributed electric current with current per unit width Js.

(a)

Expert Solution
Check Mark
To determine
The wave function for the electric field of the wave to the right of the sheet.

Answer to Problem 34.46P

The wave function for the electric field of the wave to the right of the sheet is 12cμ0Jmax[cos(kxωt)]j^ .

Explanation of Solution

Given info: The wave function for the magnetic field of the wave to the right of the sheet is 12μ0Jmax[cos(kxωt)]k^ .

Explanation:

Write the Maxwell’s third equation,

Ex=Bt

Here,

Ex is the wave function of electric field.

Bt is the wave function of the magnetic field.

Substitute 12μ0Jmax[cos(kxωt)]k^ for Bt in the above equation to find the value of Ex .

Ex=t(12μ0Jmax[cos(kxωt)]k^)=ω2μ0Jmaxsin(kxωt)

Integrating the above equation with respect to x .

E=ω2μ0Jmaxsin(kxωt)dx=12ωkμ0Jmaxcos(kxωt)

Substitute c for ωk in the above equation.

E=12cμ0Jmaxcos(kxωt)

The direction of electric field must be perpendicular to the direction of propagation (i^) and the direction of magnetic field (k^) . Thus the direction of the electric filed is (j^) .

Conclusion:

Therefore, the wave function for the electric field of the wave to the right of the sheet is 12cμ0Jmax[cos(kxωt)]j^ .

(b)

Expert Solution
Check Mark
To determine
The Poynting vector as a function of x and t .

Answer to Problem 34.46P

The Poynting vector as a function of x and t is 14cμ0Jmax2cos2(kxωt)i^ .

Explanation of Solution

Given info: The wave function for the magnetic field of the wave to the right of the sheet is 12μ0Jmax[cos(kxωt)]k^ .

Explanation:

Write the formula to calculate the Poynting vector.

S=1μ0(E×B)

Here,

S is the Poynting vector.

E is the wave function for the electric field of the wave.

B is the wave function for the magnetic field of the wave.

Substitute 12cμ0Jmax[cos(kxωt)]j^ for E and 12μ0Jmax[cos(kxωt)]k^ for B in the above equation.

S=1μ0(12cμ0Jmax[cos(kxωt)]j^×B12μ0Jmax[cos(kxωt)]k^)=14cμ0Jmax2cos2(kxωt)i^

Conclusion:

Therefore, the Poynting vector as a function of x and t is 14cμ0Jmax2cos2(kxωt)i^ .

(c)

Expert Solution
Check Mark
To determine
The intensity of the wave.

Answer to Problem 34.46P

The intensity of the wave is 18cμ0Jmax2 .

Explanation of Solution

Given info: The wave function for the magnetic field of the wave to the right of the sheet is 12μ0Jmax[cos(kxωt)]k^ .

Explanation:

The wave function for the magnetic field of the wave is.

B=12μ0Jmax[cos(kxωt)]k^

The maximum value of cos(kxωt) is 1 . Thus the maximum value of wave function for the magnetic field of the wave is

Bmax=12μ0Jmax

The wave function for the electric field of the wave is.

E=12cμ0Jmax[cos(kxωt)]j^

The maximum value of cos(kxωt) is 1 . Thus the maximum value of wave function for the electric field of the wave is

Emax=12cμ0Jmax

Write the formula to calculate the intensity of the wave is,

I=EmaxBmax2μ0

Here,

I is the intensity of the wave.

Emax is the maximum value of wave function for the electric field of the wave.

Bmax is the maximum value of wave function for the magnetic field of the wave.

Substitute 12cμ0Jmax for Emax and 12μ0Jmax for Bmax in the above equation to find the value of I .

I=(12cμ0Jmax)(12μ0Jmax)2μ0=18cμ0Jmax2

Conclusion:

Therefore, the intensity of the wave is 18cμ0Jmax2 .

(d)

Expert Solution
Check Mark
To determine
The maximum value of sinusoidal current density.

Answer to Problem 34.46P

The maximum value of sinusoidal current density is 3.47A/m .

Explanation of Solution

Given info: The intensity of the wave is 570W/m2 .

Explanation:

The intensity of the wave from part (c) is,

I=18cμ02Jmax2

Here,

I is the intensity of the wave.

c is the speed of the light.

Jmax is the maximum value of current density.

μ0 is the permeability of the free space.

Rearrange the above expression for Jmax .

Jmax=8Iμ0c

Substitute 570W/m2 for I , 3×108m/s for c and 4π×107Nkgms-2A-2 for μ0 in the above equation to find the value of Jmax .

Jmax=8(570W/m2×1VA/m21W/m2)(4π×107Vs/Am)(3×108m/s)=3.47A/m

Conclusion:

Therefore, the maximum value of sinusoidal current density is 3.47A/m .

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Chapter 34 Solutions

EBK PHYSICS FOR SCIENTISTS AND ENGINEER

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