The voltage wave propagating on a transmission line is given in real space-time form as v(z, t) = 10cos(4n*108 t +1.6 n z) + 6cos(4 n *108 t - 1.6 t *z). the voltage expression in phasor form. %3D OV = 10e(-j 1.6 m z) + 6e( j 1.6 n z) OV = 10e( -j 1.6 m z) + 6e( -j 1.6 m z) V = 10e(j 1.6 m z) + 6e( -j 1.6 n z) O V = 10e(j 1.6 n z) + 6e(j 1.6 rt z) %3D

Introductory Circuit Analysis (13th Edition)
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The voltage wave propagating on a transmission line is
given in real space-time form as
v(z, t) = 10cos(4Tt*108 t +1.6 n z) + 6cos(4 t *108 t - 1.6 t
*z).
the voltage expression in phasor form.
OV = 10e(-j 1.6 n z) + 6e(j 1.6 n z)
OV = 10e(-j 1.6 n z) + 6el -j 1.6 n z)
V = 10e(j 1.6 n z) + 6el -j 1.6 n z)
OV = 10e(j 1.6 m z) + 6e( j 1.6 m z)
Transcribed Image Text:The voltage wave propagating on a transmission line is given in real space-time form as v(z, t) = 10cos(4Tt*108 t +1.6 n z) + 6cos(4 t *108 t - 1.6 t *z). the voltage expression in phasor form. OV = 10e(-j 1.6 n z) + 6e(j 1.6 n z) OV = 10e(-j 1.6 n z) + 6el -j 1.6 n z) V = 10e(j 1.6 n z) + 6el -j 1.6 n z) OV = 10e(j 1.6 m z) + 6e( j 1.6 m z)
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