The following incorrect equation is supposed to describe a wavepropagating in a lossy medium:U(x, t) = Aeaz sin(wt – kx) (v).Choose the correct format from the below choices if exists:Select one or more:a. v(z, 1) = 5e-0.05z sin(4n * 10°t – 20xy + 20°) (v).O b. v(y, t) =7.5e-0.89y sin(47 * 10°t – 20y) (v).O c. U(y, t) = 9e-0.25y sin(4 * 10°t – 20y + 20°) (A).O d. v(x, t) = e-0.89x sin(47 * 10°t – 20x) (v).O e. v(z, 1) = 5e-0.58z sin(4n * 10°t – 20xz) (v).O f. v(z, 1) = 5.5e0.25% sin(4n * 10°t – 20rz – 20°) (v).-g. U(y, t) = 0.55e-0.003z sin(47 * 10°t – 20zy + 20°) (v).O h. v(x, t) = 5e0.25x sin(4n * 10°t - 207x) (v).O i. v(x, 1) = 5e-0.03x sin(4 * 10°t – 20x) (v).

Given : An incorrect wave equation.

The following incorrect equation is supposed to describe a wave propagating in a lossy medium: v(x, 1) = Ae azsin(wt – kx) (v). Choose the correct format from the below choices if exists: Select one or more: a. v(z, 1) = 5e-0.05 sin(4n 10°t – 20ry + 20°) (v). %3D O b. v(y, t) = 7.5e-0.89y sin(4n * 10°t – 20y) (v). O c. U(y, t) = 9e-0.25y sin(4 * 10°t – 20y + 20°) (A). O d. v(x, t) = e-0.89x sin(4n * 10°t - 20x) (v). e. v(z, 1) = 5e-0.58z sin(47 * 10°t – 20rz) (v). O f. v(z, t) = 5.5e0.25z sin(4n * 10°t – 20zz - 20°) (v). O g. v(y, t) = 0.55e-0.003z sin(4n * 10°t – 20zy + 20°) (v). O h. v(x, 1) = 5e0.25x sin(4n * 10°t – 20xx) (v). O i. v(x, t) = 5e-0.03x sin(4 * 10°t – 20x) (v).

The following incorrect equation is supposed to describe a wave propagating in a lossy medium: v(x, 1) = Ae azsin(wt – kx) (v). Choose the correct format from the below choices if exists: Select one or more: a. v(z, 1) = 5e-0.05 sin(4n 10°t – 20ry + 20°) (v). %3D O b. v(y, t) = 7.5e-0.89y sin(4n * 10°t – 20y) (v). O c. U(y, t) = 9e-0.25y sin(4 * 10°t – 20y + 20°) (A). O d. v(x, t) = e-0.89x sin(4n * 10°t - 20x) (v). e. v(z, 1) = 5e-0.58z sin(47 * 10°t – 20rz) (v). O f. v(z, t) = 5.5e0.25z sin(4n * 10°t – 20zz - 20°) (v). O g. v(y, t) = 0.55e-0.003z sin(4n * 10°t – 20zy + 20°) (v). O h. v(x, 1) = 5e0.25x sin(4n * 10°t – 20xx) (v). O i. v(x, t) = 5e-0.03x sin(4 * 10°t – 20x) (v).

University Physics Volume 2

18th Edition

ISBN:9781938168161

Author:OpenStax

Publisher:OpenStax

Chapter16: Electromagnetic Waves

Section: Chapter Questions

Problem 92AP: Show that the wave equation in one dimension 2fx2=1v22ft2 Is satisfied by any doubly differentiable...

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