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

Consider a metal wave guide with a rectangular cross section (10.0 cm x 20.0 cm). (a)...

Consider a metal wave guide with a rectangular cross section (10.0 cm x 20.0 cm). (a) If you want to propagate electromagnetic waves with a frequency of 2000Mhz on this wave guide, what are the TE and TE modes? (b) What frequency range? Will the electromagnetic wave only have one TE mode? sorry ,in the (a).It's ask for TM modes,not TE modes

Consider a sinusoidal electromagnetic wave propagating in the +x direction, whose electric field is parallel to...

Consider a sinusoidal electromagnetic wave propagating in the +x direction, whose electric field is parallel to the y axis. The wave has wavelength 475 nm, and the electric field has amplitude 3.20 x 10^-3 V m-1. What is the frequency of the wave? What is the amplitude of the magnetic field? What are the vector equations for E(x,t) and B(x,t)?

Problem 1 An electromagnetic wave propagates along the +y direction. If the electric field at the...

Problem 1 An electromagnetic wave propagates along the +y direction. If the electric field at the origin is along the +z direction, what is the direction of the magnetic field 2 If an electromagnetic wave has components Ey = E0 sin(kx - ?t) and Bz = B0 sin(kx - ?t), in what direction is it traveling?

Consider an electromagnetic wave travelling in vacuum, where the electric field is given by: ?⃗ (?...

Consider an electromagnetic wave travelling in vacuum, where the electric field is given by: ?⃗ (? ,?)=40(?/?) sin[(8×106 ???/?) (?+??)+1.57 ???]?̂ a) Compute the: i. frequency ii. wavelength iii. period iv. amplitude v. phase velocity vi. direction of motion b) Write the corresponding expression for the magnetic field of this travelling wave (don’t forget to include the proper units). c) Plot this waveform as a function of x at t=0.

In a traveling electromagnetic wave, the electric field is represented mathematically as E = E0 sin[(1.3...

In a traveling electromagnetic wave, the electric field is represented mathematically as E = E0 sin[(1.3 × 1010 s-1)t - (4.7 × 101 m-1)x] where E0 is the maximum field strength. (a) What is the frequency of the wave? (b) This wave and the wave that results from its reflection can form a standing wave, in a way similar to that in which standing waves can arise on a string (see Section 17.5). What is the separation between adjacent nodes...

1. What is the maximum electric field strength in an electromagnetic wave that has a maximum...

1. What is the maximum electric field strength in an electromagnetic wave that has a maximum magnetic field strength of 7.4 × 10-4 T ? Answer to the nearest whole number of kiloVolts per meter (kV/m). No need to include the units. 2. A radio station utilizes frequencies between commercial AM and FM. What is the frequency of a 46-m-wavelength channel? Answer to 2 decimal place precision the number of MegaHertz (MHz). No units required. 3. During normal beating, the...

Waveguides Consider a rectangular waveguide, with transverse dimensions a = 10.668 mm and b = 4.318...

Waveguides Consider a rectangular waveguide, with transverse dimensions a = 10.668 mm and b = 4.318 mm. The waveguide is uniformly filled with a non-magnetic dielectric with????=2. We wish to use this waveguide to propagate a wave at frequency ??=13 GHz. (i)Which propagation modes can be sustained by this waveguide at 13 GHz? Explain in detail how you arrive at the answer. (ii)Calculate the propagation constant ? for the allowed modes at f = 13 GHz.(iii)Assume that the 13 GHz...

Deadline: 100% until Sunday, April 22 at 11:59 PM Electromagnetic Waves 2 1 2 3 4...

Deadline: 100% until Sunday, April 22 at 11:59 PM Electromagnetic Waves 2 1 2 3 4 1 6 A plane monochromatic electromagnetic wave with wavelength ? = 2.1 cm, propagates through a vacuum. Its magnetic field is described by B? =(Bxi^+Byj^)cos(kz+?t)B?=(Bxi^+Byj^)cos?(kz+?t) where Bx = 2 X 10-6 T, By = 4.9 X 10-6 T, and i-hat and j-hat are the unit vectors in the +x and +y directions, respectively. 1) What is f, the frequency of this wave?GHz You currently...

Written Problem: Induction from a falling magnet We have a small magnet with a magnetic moment...

Written Problem: Induction from a falling magnet We have a small magnet with a magnetic moment of m = 0.1 Am2 (remember: magnetic moment is defined as m = IA - see page 932 of book for the definition). We also have coils of wire. The coils are made out of 100 circular loops of a single wire. A single loop has a radius of 10 cm. The thickness of the wire has a circular cross section with a 0.5...

What tools could AA leaders have used to increase their awareness of internal and external issues?...

What tools could AA leaders have used to increase their awareness of internal and external issues? ???ALASKA AIRLINES: NAVIGATING CHANGE In the autumn of 2007, Alaska Airlines executives adjourned at the end of a long and stressful day in the midst of a multi-day strategic planning session. Most headed outside to relax, unwind and enjoy a bonfire on the shore of Semiahmoo Spit, outside the meeting venue in Blaine, a seaport town in northwest Washington state. Meanwhile, several members of...