Physics for Scientists and Engineers: Foundations and Connections
Physics for Scientists and Engineers: Foundations and Connections
1st Edition
ISBN: 9781337026345
Author: Katz
Publisher: Cengage
Question
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Chapter 34, Problem 73PQ

(a)

To determine

The direction in which the wave is travelling.

(a)

Expert Solution
Check Mark

Answer to Problem 73PQ

The wave is travelling along the positive Z-direction.

Explanation of Solution

Since the given equation of the electric field of the wave contains the position variable ‘z’, therefore. The wave travels in the positive Z-direction.

Conclusion:

Therefore, the wave is travelling along the positive Z-direction.

(b)

To determine

The frequency, angular frequency and wave number of the wave.

(b)

Expert Solution
Check Mark

Answer to Problem 73PQ

The frequency of the wave is 6.60×1014Hz, the angular frequency of the wave is 4.15×1015rad/s and the wave number of the wave is 1.40×107m1.

Explanation of Solution

Write the expression for the frequency of an electromagnetic wave.

    f=cλ                                                             (I)

Here c is the speed of light and f is the frequency of light and λ is the wavelength.

Write the expression for the angular frequency of the wave.

  ω=2πf                                          (II)

Here, ω is the angular frequency and f is the frequency of the wave.

Write the expression for the wave number of the wave.

  k=2πλ                                          (III)

Here, k is the wave number and λ is the wavelength of the wave.

Conclusion:

Substitute 3×108m/s for c and 454nm for λ in equation (I) to find f.

    f=3×108m/s(454nm×109m1m)

  =6.60×1014Hz

Substitute equation (II) in the above equation to find ω.

    ω=2π(6.60×1014Hz)=4.15×1015rad/s

Substitute 454nm for  λ in (III) to find k.

    k=2π(454nm×109m1m)=1.40×107m1

Therefore, the frequency of the wave is 6.60×1014Hz, the angular frequency of the wave is 4.15×1015rad/s and the wave number of the wave is 1.40×107m1.

(c)

To determine

The direction in which the magnetic field of the wave oscillates.

(c)

Expert Solution
Check Mark

Answer to Problem 73PQ

The magnetic field of the wave oscillates in the negative X-direction.

Explanation of Solution

Since, the wave is travelling along the Z direction, and the electric field oscillates along the Y-direction. Therefore, the magnetic field oscillates along the X-direction.

Conclusion:

Therefore, the magnetic field of the wave oscillates in the negative X-direction.

(d)

To determine

The equation of the magnetic field of the wave.

(d)

Expert Solution
Check Mark

Answer to Problem 73PQ

The equation of the magnetic field of the wave is B(z,t)=(1.67×1011T)sin[(1.40×107m1)z(4.15×1015rad/s)t]

Explanation of Solution

Write the expression for the maximum magnetic field.

    Bmax=Emaxc                                                                                       (I).

Here, Emax is the maximum electric field, c is the speed of light, and Bmax is the maximum magnetic field.

Write the equation for the magnetic field.

    B(z,t)=Bmaxsin(kzωt)                                                           (II)

Conclusion:

Substitute 5.00×103V/m for Emax and 3.0×108m/s for c in (I) equation to find Bmax.

    Bmax=5.00×103V/m3.0×108m/s=1.67×1011T

Substitute 1.67×1011T for Bmax, 1.40×107m1 for k, and 4.15×1015rad/s for ω in (II) equation to find B(z,t).

    B(z,t)=(1.67×1011T)sin[(1.40×107m1)z(4.15×1015rad/s)t]

Therefore, the equation for the magnetic field is B(z,t)=(1.67×1011T)sin[(1.40×107m1)z(4.15×1015rad/s)t]

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Chapter 34 Solutions

Physics for Scientists and Engineers: Foundations and Connections

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