- #1
thatsmessedup
- 27
- 0
I am getting a complex number for my transmission angle in part (c) but I do not know what that means. Am I even doing this correctly? Any help will be greatly appreciated. Thanks!
When a wave crosses between media, we can see a surface wave. This is a guided wave traveling along the interface, having a field component in the direction of propagation. This component is in quadrature to the main wave. In effect, the E field vector becomes an ellipse.thatsmessedup said:I am getting a complex number for my transmission angle in part (c) but I do not know what that means. Am I even doing this correctly? Any help will be greatly appreciated. Thanks!
View attachment 251875
View attachment 251876
A complex transmission angle refers to the angle at which a wave or signal is transmitted from one medium to another, where the angle is not a simple or straightforward value. It may involve multiple angles or a combination of angles, making it more difficult to calculate or understand.
A simple transmission angle is a single angle that represents the direction of a wave or signal as it passes from one medium to another. A complex transmission angle, on the other hand, involves multiple angles or a combination of angles, making it more complex to analyze and interpret.
Several factors can contribute to a complex transmission angle, including changes in the refractive index of the medium, the angle of incidence, and the nature of the interface between the two mediums. The presence of multiple mediums or interfaces can also contribute to a complex transmission angle.
Understanding complex transmission angles is important in science because it allows us to accurately predict and analyze the behavior of waves and signals as they pass through different mediums. This knowledge is crucial in fields such as optics, acoustics, and telecommunications, where precise control and manipulation of waves and signals is necessary.
Complex transmission angles can be calculated or measured using various mathematical formulas and techniques, depending on the specific scenario. These may include Snell's Law, the Fresnel equations, or other methods. In some cases, advanced equipment such as spectrometers or interferometers may be used to measure complex transmission angles.