Question

In: Physics

Electromagnetic wave problem TE modes=Transverse Electric Modes TM modes=Transverse Magnetic Modes problem: Consider a long straight...

Electromagnetic wave problem

TE modes=Transverse Electric Modes

TM modes=Transverse Magnetic Modes

problem:

Consider a long straight hollow cylindrical metal tube with an inner diameter R.
Find possible Transverse Electric Modes(TE modes) and Transverse Magnetic Modes(TM modes) that are propagated in this wave guide system

(FIND TE modes and TM modes in this wave guide system)

Solutions

Expert Solution


Related Solutions

Explain the difference between TE (trasnverse electric), TM (transverse magnetic), and TEM (transverse electric and magnetic)...
Explain the difference between TE (trasnverse electric), TM (transverse magnetic), and TEM (transverse electric and magnetic) waves.
Electromagnetic Waves question : Drive the field expressions for TE modes in parallel plate wave guide
Electromagnetic Waves question : Drive the field expressions for TE modes in parallel plate wave guide
TE and TM Modes in rectangular waveguides and define the parameters of rectangular waveguides.
TE and TM Modes in rectangular waveguides and define the parameters of rectangular waveguides.
Show that  Brewster angle does not exist for TE  polarized light. . WHERE is TE transverse electric
Show that  Brewster angle does not exist for TE  polarized light. . WHERE is TE transverse electric
Explain the differences between TE, TM, and TEM waveguide modes and the difference between guided and...
Explain the differences between TE, TM, and TEM waveguide modes and the difference between guided and unguided EM propagation
Consider an inifinitely long superconducting circular cylinder of radius a in a transverse magnetic field. At...
Consider an inifinitely long superconducting circular cylinder of radius a in a transverse magnetic field. At large distances from the cylinder the field is unifrom and of magnitude B0. Compute the fields inside and outside cylinder using the London equations and the phenomenological penetration depth lamda. Assume that the superconducting properties are represented by perfect diamagnetism and perfect conductivity.
The electric field of an electromagnetic wave that propagates in a vacuum is given by: ?⃗...
The electric field of an electromagnetic wave that propagates in a vacuum is given by: ?⃗ (?, ?) = 2 cos (α? - ω?) ? + 2 sin (α? - ω?) ?, ?? (?/?); ???? α ? ω ??? ?????????? a) What is the amplitude E0 of the electric field, its angular frequency, period, frequency f, wave number | ?⃗ |, wavelength, its speed u and its phase constant φ? b) I) Determine the electric field in the x-y plane...
Derive the electromagnetic wave equation in terms of the magnetic field H
Derive the electromagnetic wave equation in terms of the magnetic field H
Write an equation for the magnetic field of an electromagnetic wave traveling in vacuum if the...
Write an equation for the magnetic field of an electromagnetic wave traveling in vacuum if the amplitude is 0.0028 T and the frequency is 2.0 × 108 Hz. Find the magnetic field when x = 32 cm and t = 6.8 ns.
Electromagnetic theory 2 (a) Obtain the expressions for Ex and Ey for the transverse electric case...
Electromagnetic theory 2 (a) Obtain the expressions for Ex and Ey for the transverse electric case and show that they satisfy the condition Ell *= 0 on the boundary. (b) A rectangular metallic waveguide has dimensions, a = 3.0 cm and b = 4.0 cm. Find out the modes (TE and TM) in which a free space wavelength of 4.5 cm could propagate through it. (c) A waveguide has an inside dimension of 6cm x 1cm. Find the first 3...
ADVERTISEMENT
ADVERTISEMENT
ADVERTISEMENT