The verification for E = E max cos ( k x − ω t ) and B = B max cos ( k x − ω t ) being the solution to equations 34.15 and 34.16 respectively.

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Answer 1

Question

Chapter 34, Problem 16P

To determine

The verification for E=Emaxcos(kx−ωt) and B=Bmaxcos(kx−ωt) being the solution to equations 34.15 and 34.16 respectively.

Expert Solution & Answer

Answer to Problem 16P

The verification for E=Emaxcos(kx−ωt) and B=Bmaxcos(kx−ωt) being the solution to equations 34.15 and 34.16 respectively is as stated below.

Explanation of Solution

The given equations are.

E=Emaxcos(kx−ωt) (I)

Here, E is the magnitude of electric field , Emax is the magnitude of the maximum electric field, k is the wave vector and ω is the angular frequency.

B=Bmaxcos(kx−ωt) (II)

Here, B is the magnitude of magnetic field , Bmax is the magnitude of the maximum magnetic field.

Differentiate equation (I) partially twice with respect to x.

∂E∂x=−Emaxsin(kx−ωt)(k)∂2E∂x2=−Emaxcos(kx−ωt)(k2) (III)

Differentiate equation (I) partially twice with respect to t.

∂E∂t=−Emaxsin(kx−ωt)(−ω)∂2E∂t2=−Emaxcos(kx−ωt)(−ω)2 (IV)

Differentiate equation (II) partially twice with respect to x.

∂B∂x=−Bmaxsin(kx−ωt)(k)∂2B∂x2=−Bmaxcos(kx−ωt)(k2) (V)

Differentiate equation (II) partially twice with respect to t.

∂B∂t=−Bmaxsin(kx−ωt)(ω)∂2B∂t2=−Bmaxcos(kx−ωt)(−ω)2 (VI)

Divide equation (III) by equation (IV).

∂2E∂x2∂2E∂t2=−Emaxcos(kx−ωt)(k2)−Emaxcos(kx−ωt)(−ω)2∂2E∂x2=k2ω2(∂2E∂t2) (VII)

Divide equation (V) by equation (VI).

∂2B∂x2∂2B∂t2=−Bmaxcos(kx−ωt)(k2)−Bmaxcos(kx−ωt)(−ω)2∂2E∂x2=k2ω2(∂2B∂t2) (VIII)

Also,

kω=μ0ε0 (IX)

Here, μ0 is the permeability of the medium and ε0 is the permittivity if the medium.

Substitute μ0ε0 for kω in equation (VII).

∂2E∂x2=(μ0ε0)2(∂2E∂t2)∂2E∂x2=μ0ε0(∂2E∂t2) (X)

The equation 34.15 is ,

∂2E∂x2=μ0ε0(∂2E∂t2) (XI)

Substitute μ0ε0 for kω in equation (VIII).

∂2B∂x2=(μ0ε0)2(∂2B∂t2)∂2B∂x2=μ0ε0(∂2B∂t2) (XII)

The equation 34.16 is,

∂2B∂x2=μ0ε0(∂2B∂t2) (XIII)

Conclusion:

Equation (X) is equal to equation (XI) and equation (XII) equals to equal (XIII).

Hence, verified.

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Answer 2

Question

Chapter 34, Problem 16P

To determine

The verification for E=Emaxcos(kx−ωt) and B=Bmaxcos(kx−ωt) being the solution to equations 34.15 and 34.16 respectively.

Expert Solution & Answer

Answer to Problem 16P

The verification for E=Emaxcos(kx−ωt) and B=Bmaxcos(kx−ωt) being the solution to equations 34.15 and 34.16 respectively is as stated below.

Explanation of Solution

The given equations are.

E=Emaxcos(kx−ωt) (I)

Here, E is the magnitude of electric field , Emax is the magnitude of the maximum electric field, k is the wave vector and ω is the angular frequency.

B=Bmaxcos(kx−ωt) (II)

Here, B is the magnitude of magnetic field , Bmax is the magnitude of the maximum magnetic field.

Differentiate equation (I) partially twice with respect to x.

∂E∂x=−Emaxsin(kx−ωt)(k)∂2E∂x2=−Emaxcos(kx−ωt)(k2) (III)

Differentiate equation (I) partially twice with respect to t.

∂E∂t=−Emaxsin(kx−ωt)(−ω)∂2E∂t2=−Emaxcos(kx−ωt)(−ω)2 (IV)

Differentiate equation (II) partially twice with respect to x.

∂B∂x=−Bmaxsin(kx−ωt)(k)∂2B∂x2=−Bmaxcos(kx−ωt)(k2) (V)

Differentiate equation (II) partially twice with respect to t.

∂B∂t=−Bmaxsin(kx−ωt)(ω)∂2B∂t2=−Bmaxcos(kx−ωt)(−ω)2 (VI)

Divide equation (III) by equation (IV).

∂2E∂x2∂2E∂t2=−Emaxcos(kx−ωt)(k2)−Emaxcos(kx−ωt)(−ω)2∂2E∂x2=k2ω2(∂2E∂t2) (VII)

Divide equation (V) by equation (VI).

∂2B∂x2∂2B∂t2=−Bmaxcos(kx−ωt)(k2)−Bmaxcos(kx−ωt)(−ω)2∂2E∂x2=k2ω2(∂2B∂t2) (VIII)

Also,

kω=μ0ε0 (IX)

Here, μ0 is the permeability of the medium and ε0 is the permittivity if the medium.

Substitute μ0ε0 for kω in equation (VII).

∂2E∂x2=(μ0ε0)2(∂2E∂t2)∂2E∂x2=μ0ε0(∂2E∂t2) (X)

The equation 34.15 is ,

∂2E∂x2=μ0ε0(∂2E∂t2) (XI)

Substitute μ0ε0 for kω in equation (VIII).

∂2B∂x2=(μ0ε0)2(∂2B∂t2)∂2B∂x2=μ0ε0(∂2B∂t2) (XII)

The equation 34.16 is,

∂2B∂x2=μ0ε0(∂2B∂t2) (XIII)

Conclusion:

Equation (X) is equal to equation (XI) and equation (XII) equals to equal (XIII).

Hence, verified.

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Answer 3

Question

Chapter 34, Problem 16P

To determine

The verification for E=Emaxcos(kx−ωt) and B=Bmaxcos(kx−ωt) being the solution to equations 34.15 and 34.16 respectively.

Expert Solution & Answer

Answer to Problem 16P

The verification for E=Emaxcos(kx−ωt) and B=Bmaxcos(kx−ωt) being the solution to equations 34.15 and 34.16 respectively is as stated below.

Explanation of Solution

The given equations are.

E=Emaxcos(kx−ωt) (I)

Here, E is the magnitude of electric field , Emax is the magnitude of the maximum electric field, k is the wave vector and ω is the angular frequency.

B=Bmaxcos(kx−ωt) (II)

Here, B is the magnitude of magnetic field , Bmax is the magnitude of the maximum magnetic field.

Differentiate equation (I) partially twice with respect to x.

∂E∂x=−Emaxsin(kx−ωt)(k)∂2E∂x2=−Emaxcos(kx−ωt)(k2) (III)

Differentiate equation (I) partially twice with respect to t.

∂E∂t=−Emaxsin(kx−ωt)(−ω)∂2E∂t2=−Emaxcos(kx−ωt)(−ω)2 (IV)

Differentiate equation (II) partially twice with respect to x.

∂B∂x=−Bmaxsin(kx−ωt)(k)∂2B∂x2=−Bmaxcos(kx−ωt)(k2) (V)

Differentiate equation (II) partially twice with respect to t.

∂B∂t=−Bmaxsin(kx−ωt)(ω)∂2B∂t2=−Bmaxcos(kx−ωt)(−ω)2 (VI)

Divide equation (III) by equation (IV).

∂2E∂x2∂2E∂t2=−Emaxcos(kx−ωt)(k2)−Emaxcos(kx−ωt)(−ω)2∂2E∂x2=k2ω2(∂2E∂t2) (VII)

Divide equation (V) by equation (VI).

∂2B∂x2∂2B∂t2=−Bmaxcos(kx−ωt)(k2)−Bmaxcos(kx−ωt)(−ω)2∂2E∂x2=k2ω2(∂2B∂t2) (VIII)

Also,

kω=μ0ε0 (IX)

Here, μ0 is the permeability of the medium and ε0 is the permittivity if the medium.

Substitute μ0ε0 for kω in equation (VII).

∂2E∂x2=(μ0ε0)2(∂2E∂t2)∂2E∂x2=μ0ε0(∂2E∂t2) (X)

The equation 34.15 is ,

∂2E∂x2=μ0ε0(∂2E∂t2) (XI)

Substitute μ0ε0 for kω in equation (VIII).

∂2B∂x2=(μ0ε0)2(∂2B∂t2)∂2B∂x2=μ0ε0(∂2B∂t2) (XII)

The equation 34.16 is,

∂2B∂x2=μ0ε0(∂2B∂t2) (XIII)

Conclusion:

Equation (X) is equal to equation (XI) and equation (XII) equals to equal (XIII).

Hence, verified.

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Answer 4

Question

Chapter 34, Problem 16P

To determine

The verification for E=Emaxcos(kx−ωt) and B=Bmaxcos(kx−ωt) being the solution to equations 34.15 and 34.16 respectively.

Expert Solution & Answer

Answer to Problem 16P

The verification for E=Emaxcos(kx−ωt) and B=Bmaxcos(kx−ωt) being the solution to equations 34.15 and 34.16 respectively is as stated below.

Explanation of Solution

The given equations are.

E=Emaxcos(kx−ωt) (I)

Here, E is the magnitude of electric field , Emax is the magnitude of the maximum electric field, k is the wave vector and ω is the angular frequency.

B=Bmaxcos(kx−ωt) (II)

Here, B is the magnitude of magnetic field , Bmax is the magnitude of the maximum magnetic field.

Differentiate equation (I) partially twice with respect to x.

∂E∂x=−Emaxsin(kx−ωt)(k)∂2E∂x2=−Emaxcos(kx−ωt)(k2) (III)

Differentiate equation (I) partially twice with respect to t.

∂E∂t=−Emaxsin(kx−ωt)(−ω)∂2E∂t2=−Emaxcos(kx−ωt)(−ω)2 (IV)

Differentiate equation (II) partially twice with respect to x.

∂B∂x=−Bmaxsin(kx−ωt)(k)∂2B∂x2=−Bmaxcos(kx−ωt)(k2) (V)

Differentiate equation (II) partially twice with respect to t.

∂B∂t=−Bmaxsin(kx−ωt)(ω)∂2B∂t2=−Bmaxcos(kx−ωt)(−ω)2 (VI)

Divide equation (III) by equation (IV).

∂2E∂x2∂2E∂t2=−Emaxcos(kx−ωt)(k2)−Emaxcos(kx−ωt)(−ω)2∂2E∂x2=k2ω2(∂2E∂t2) (VII)

Divide equation (V) by equation (VI).

∂2B∂x2∂2B∂t2=−Bmaxcos(kx−ωt)(k2)−Bmaxcos(kx−ωt)(−ω)2∂2E∂x2=k2ω2(∂2B∂t2) (VIII)

Also,

kω=μ0ε0 (IX)

Here, μ0 is the permeability of the medium and ε0 is the permittivity if the medium.

Substitute μ0ε0 for kω in equation (VII).

∂2E∂x2=(μ0ε0)2(∂2E∂t2)∂2E∂x2=μ0ε0(∂2E∂t2) (X)

The equation 34.15 is ,

∂2E∂x2=μ0ε0(∂2E∂t2) (XI)

Substitute μ0ε0 for kω in equation (VIII).

∂2B∂x2=(μ0ε0)2(∂2B∂t2)∂2B∂x2=μ0ε0(∂2B∂t2) (XII)

The equation 34.16 is,

∂2B∂x2=μ0ε0(∂2B∂t2) (XIII)

Conclusion:

Equation (X) is equal to equation (XI) and equation (XII) equals to equal (XIII).

Hence, verified.

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Answer 5

Chapter 34, Problem 16P

To determine

The verification for E=Emaxcos(kx−ωt) and B=Bmaxcos(kx−ωt) being the solution to equations 34.15 and 34.16 respectively.

Expert Solution & Answer

Answer to Problem 16P

The verification for E=Emaxcos(kx−ωt) and B=Bmaxcos(kx−ωt) being the solution to equations 34.15 and 34.16 respectively is as stated below.

Explanation of Solution

The given equations are.

E=Emaxcos(kx−ωt) (I)

Here, E is the magnitude of electric field , Emax is the magnitude of the maximum electric field, k is the wave vector and ω is the angular frequency.

B=Bmaxcos(kx−ωt) (II)

Here, B is the magnitude of magnetic field , Bmax is the magnitude of the maximum magnetic field.

Differentiate equation (I) partially twice with respect to x.

∂E∂x=−Emaxsin(kx−ωt)(k)∂2E∂x2=−Emaxcos(kx−ωt)(k2) (III)

Differentiate equation (I) partially twice with respect to t.

∂E∂t=−Emaxsin(kx−ωt)(−ω)∂2E∂t2=−Emaxcos(kx−ωt)(−ω)2 (IV)

Differentiate equation (II) partially twice with respect to x.

∂B∂x=−Bmaxsin(kx−ωt)(k)∂2B∂x2=−Bmaxcos(kx−ωt)(k2) (V)

Differentiate equation (II) partially twice with respect to t.

∂B∂t=−Bmaxsin(kx−ωt)(ω)∂2B∂t2=−Bmaxcos(kx−ωt)(−ω)2 (VI)

Divide equation (III) by equation (IV).

∂2E∂x2∂2E∂t2=−Emaxcos(kx−ωt)(k2)−Emaxcos(kx−ωt)(−ω)2∂2E∂x2=k2ω2(∂2E∂t2) (VII)

Divide equation (V) by equation (VI).

∂2B∂x2∂2B∂t2=−Bmaxcos(kx−ωt)(k2)−Bmaxcos(kx−ωt)(−ω)2∂2E∂x2=k2ω2(∂2B∂t2) (VIII)

Also,

kω=μ0ε0 (IX)

Here, μ0 is the permeability of the medium and ε0 is the permittivity if the medium.

Substitute μ0ε0 for kω in equation (VII).

∂2E∂x2=(μ0ε0)2(∂2E∂t2)∂2E∂x2=μ0ε0(∂2E∂t2) (X)

The equation 34.15 is ,

∂2E∂x2=μ0ε0(∂2E∂t2) (XI)

Substitute μ0ε0 for kω in equation (VIII).

∂2B∂x2=(μ0ε0)2(∂2B∂t2)∂2B∂x2=μ0ε0(∂2B∂t2) (XII)

The equation 34.16 is,

∂2B∂x2=μ0ε0(∂2B∂t2) (XIII)

Conclusion:

Equation (X) is equal to equation (XI) and equation (XII) equals to equal (XIII).

Hence, verified.

Answer 6

Chapter 34, Problem 16P

To determine

The verification for E=Emaxcos(kx−ωt) and B=Bmaxcos(kx−ωt) being the solution to equations 34.15 and 34.16 respectively.

Expert Solution & Answer

Answer to Problem 16P

The verification for E=Emaxcos(kx−ωt) and B=Bmaxcos(kx−ωt) being the solution to equations 34.15 and 34.16 respectively is as stated below.

Explanation of Solution

The given equations are.

E=Emaxcos(kx−ωt) (I)

Here, E is the magnitude of electric field , Emax is the magnitude of the maximum electric field, k is the wave vector and ω is the angular frequency.

B=Bmaxcos(kx−ωt) (II)

Here, B is the magnitude of magnetic field , Bmax is the magnitude of the maximum magnetic field.

Differentiate equation (I) partially twice with respect to x.

∂E∂x=−Emaxsin(kx−ωt)(k)∂2E∂x2=−Emaxcos(kx−ωt)(k2) (III)

Differentiate equation (I) partially twice with respect to t.

∂E∂t=−Emaxsin(kx−ωt)(−ω)∂2E∂t2=−Emaxcos(kx−ωt)(−ω)2 (IV)

Differentiate equation (II) partially twice with respect to x.

∂B∂x=−Bmaxsin(kx−ωt)(k)∂2B∂x2=−Bmaxcos(kx−ωt)(k2) (V)

Differentiate equation (II) partially twice with respect to t.

∂B∂t=−Bmaxsin(kx−ωt)(ω)∂2B∂t2=−Bmaxcos(kx−ωt)(−ω)2 (VI)

Divide equation (III) by equation (IV).

∂2E∂x2∂2E∂t2=−Emaxcos(kx−ωt)(k2)−Emaxcos(kx−ωt)(−ω)2∂2E∂x2=k2ω2(∂2E∂t2) (VII)

Divide equation (V) by equation (VI).

∂2B∂x2∂2B∂t2=−Bmaxcos(kx−ωt)(k2)−Bmaxcos(kx−ωt)(−ω)2∂2E∂x2=k2ω2(∂2B∂t2) (VIII)

Also,

kω=μ0ε0 (IX)

Here, μ0 is the permeability of the medium and ε0 is the permittivity if the medium.

Substitute μ0ε0 for kω in equation (VII).

∂2E∂x2=(μ0ε0)2(∂2E∂t2)∂2E∂x2=μ0ε0(∂2E∂t2) (X)

The equation 34.15 is ,

∂2E∂x2=μ0ε0(∂2E∂t2) (XI)

Substitute μ0ε0 for kω in equation (VIII).

∂2B∂x2=(μ0ε0)2(∂2B∂t2)∂2B∂x2=μ0ε0(∂2B∂t2) (XII)

The equation 34.16 is,

∂2B∂x2=μ0ε0(∂2B∂t2) (XIII)

Conclusion:

Equation (X) is equal to equation (XI) and equation (XII) equals to equal (XIII).

Hence, verified.

Answer 7

Chapter 34, Problem 16P

To determine

The verification for E=Emaxcos(kx−ωt) and B=Bmaxcos(kx−ωt) being the solution to equations 34.15 and 34.16 respectively.

Answer 8

Expert Solution & Answer

Answer to Problem 16P

The verification for E=Emaxcos(kx−ωt) and B=Bmaxcos(kx−ωt) being the solution to equations 34.15 and 34.16 respectively is as stated below.

Answer 9

Expert Solution & Answer

Answer 10

Expert Solution & Answer

Answer 11

Explanation of Solution

The given equations are.

E=Emaxcos(kx−ωt) (I)

Here, E is the magnitude of electric field , Emax is the magnitude of the maximum electric field, k is the wave vector and ω is the angular frequency.

B=Bmaxcos(kx−ωt) (II)

Here, B is the magnitude of magnetic field , Bmax is the magnitude of the maximum magnetic field.

Differentiate equation (I) partially twice with respect to x.

∂E∂x=−Emaxsin(kx−ωt)(k)∂2E∂x2=−Emaxcos(kx−ωt)(k2) (III)