A sinusoidal electromagnetic wave having a magnetic field ofamplitude 1.50 μT and a wavelength of 422 nm is traveling in the+x direction through empty space.Part CWrite the equations for the electric and magnetic fields as functions of x and t.E = (450V/m) sin[(4.47 × 10¹5 rad/s)t – (1.49 × 107rad/m)x]B = (1.50µT) sin[(4.47 × 10¹5 rad/s)t – (1.49 × 107rad/m)x]E = (450V/m) sin[(4.47 × 10¹5 rad/s)t – (1.49 × 107rad/m)/x]B= (1.50μT) sin[(4.47 x 10¹5 rad/s)t + (1.49 x 107rad/m)/x]E = (450V/m) sin[(4.47 × 10¹5 rad/s)t + (1.49 × 107rad/m)x]B = (1.50μT) sin[(4.47 × 10¹5 rad/s)t + (1.49 × 107rad/m)x]E = (450V/m) sin[(4.47 × 10¹5 rad/s)t + (1.49 × 107rad/m)x]B = (1.50µT) sin[(4.47 × 10¹5 rad/s)t - (1.49 × 107rad/m)x]

An electromagnetic wave traveling in the positive x-direction is represented by the time-dependent…

Answered: A sinusoidal electromagnetic wave…

A sinusoidal electromagnetic wave having a magnetic field of amplitude 1.50 μT and a wavelength of 422 nm is traveling in the + direction through empty space.

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Question

A sinusoidal electromagnetic wave having a magnetic field of
amplitude 1.50 μT and a wavelength of 422 nm is traveling in the
+x direction through empty space.
Part C
Write the equations for the electric and magnetic fields as functions of x and t.
E = (450V/m) sin[(4.47 × 10¹5 rad/s)t – (1.49 × 107rad/m)x]
B = (1.50µT) sin[(4.47 × 10¹5 rad/s)t – (1.49 × 107rad/m)x]
E = (450V/m) sin[(4.47 × 10¹5 rad/s)t – (1.49 × 107rad/m)/x]
B= (1.50μT) sin[(4.47 x 10¹5 rad/s)t + (1.49 x 107rad/m)/x]
E = (450V/m) sin[(4.47 × 10¹5 rad/s)t + (1.49 × 107rad/m)x]
B = (1.50μT) sin[(4.47 × 10¹5 rad/s)t + (1.49 × 107rad/m)x]
E = (450V/m) sin[(4.47 × 10¹5 rad/s)t + (1.49 × 107rad/m)x]
B = (1.50µT) sin[(4.47 × 10¹5 rad/s)t - (1.49 × 107rad/m)x]

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