Physics for Scientists and Engineers: Foundations and Connections
Physics for Scientists and Engineers: Foundations and Connections
15th Edition
ISBN: 9781305289963
Author: Debora M. Katz
Publisher: Cengage Custom Learning
Question
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Chapter 34, Problem 67PQ

(a)

To determine

The direction in which the wave is travelling.

(a)

Expert Solution
Check Mark

Answer to Problem 67PQ

The direction in which the wave is travelling is i^.

Explanation of Solution

Write the expression for magnetic field of electromagnetic wave.

    B(x,t)=Bmaxsin(kx+ωt)                                                                              (I)

Here, k is the wave number, Bmax is the maximum magnetic field, ω is the angular frequency, and t is the time.

Compare equation (I) with given equation of magnetic field.

    Bmaxsin(kx+ωt)=(4.0×108)sin[(1.4×104rad/m)x+ωt]

Conclusion:

Therefore, the direction in which the wave is travelling is i^.

(b)

To determine

The wave number, wave-length and frequency of the electro-magnetic wave.

(b)

Expert Solution
Check Mark

Answer to Problem 67PQ

The wave number is 1.4×104m1, the wave-length of the electro-magnetic wave is 4.5×104m and the frequency of radiation is 6.7×1011Hz.

Explanation of Solution

Write the expression for wave-length of the electro-magnetic wave.

    λ=2πk                                                                                                          (II)

Here, k is the wave number.

Write the expression for frequency of radiation.

    f=cλ                                                                                                            (III)

Here, c is the velocity of light.

Conclusion:

Compare equation (I) with given equation of magnetic field.

    Bmaxsin(kx+ωt)=(4.0×108)sin[(1.4×104m1)x+ωt]

The wave number is 1.4×104m1.

Substitute 1.4×104rad/m for k in equation (II) to calculate λ.

    λ=(2)(3.14)1.4×104rad/m=(4.49×104m)(1μm106m)=4.5×104m

Substitute 4.5×104m for λ and 3×108m/s for c in equation (III) to calculate f.

    f=3×108m/s4.5×104m=6.67×1011Hz6.7×1011Hz

Therefore, the wave number is 1.4×104m1, the wave-length of the electro-magnetic wave is 4.5×104m and the frequency of radiation is 6.7×1011Hz.

(c)

To determine

The expression for electric field of electromagnetic wave

(c)

Expert Solution
Check Mark

Answer to Problem 67PQ

The expression for electric field of electromagnetic wave is given below.

    E(x,t)=(12V/m)sin[(1.4×104rad/m)x+(4.2×1012rad/s)t]

Explanation of Solution

Write the expression for maximum value of electric field of

    Emax=cBmax                                                                                                        (IV)

Write the expression for electric field of electromagnetic wave.

    E(x,t)=Emaxsin(kx+ωt)                                                                               (V)

Write the expression for angular frequency.

    ω=2πf                                                                                                              (VI)

Conclusion:

Substitute 4.0×108 T for Bmax and 3×108m/s for c in equation (IV) to calculate Emax.

    Emax=3×108m/s×4.0×108 T=12V/m

Substitute 6.7×1011Hz for f in equation (VI) to calculate ω.

    ω=2π(6.7×1011Hz)=4.2×1012rad/s

Substitute 12.0V/m for Emax , 4.2×1012rad/s for ω , and 1.4×104 rad/m for k in equation (V) to find E(x,t).

    E(x,t)=(12V/m)sin[(1.4×104rad/m)x+(4.2×1012rad/s)t]

Therefore, the expression for electric field of electromagnetic wave is given below.

  E(x,t)=(12V/m)sin[(1.4×104rad/m)x+(4.2×1012rad/s)t]

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Chapter 34 Solutions

Physics for Scientists and Engineers: Foundations and Connections

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