Velocity of Propagation

Problem 1

Consider a conductive line of length l = 2.0 cm, moving with velocity v = -1.0  m/s toward a very long conductor of current I = 5.0 A. Find the induced voltage from one end of the conductive line to the other when r reaches 12 cm and determine which end is positive.[pic 1]

Problem 2

Plot the ratio of conduction current and displacement current of seawater ( versus frequency (log scale) from 1 Hz to 1 GHz. Determine the frequency for which the magnitude of the displacement current density and that of the conduction current density are equal.[pic 2]

Problem 3

The electric field intensity propagating in a nonmagnetic lossless material is given as:

 V/m[pic 3]

a) Determine the frequency, wave length, velocity of propagation, and the permittivity of the medium.

b) Determine the magnetic field intensity .[pic 4]

Problem 4

An electric field intensity vector in free space is given as

 V/m.[pic 5]

a) Is the wave lossless?

b) Find the magnetic field intensity .[pic 6]

Problem 5

An electric field intensity vector in a nonmagnetic medium of relative permittivity 4 is given as

 V/m. Determine ?[pic 7][pic 8]

Consider a conductive line of length l = 2.0 cm, moving with velocity v = -1.0  m/s toward a very long conductor of current I = 5.0 A. Find the induced voltage from one end of the conductive line to the other when r reaches 12 cm and determine which end is positive.[pic 9]

Problem 2

Plot the ratio of conduction current and displacement current of seawater ( versus frequency (log scale) from 1 Hz to 1 GHz. Determine the frequency for which the magnitude of the displacement current density and that of the conduction current density are equal.[pic 10]