Wave Power Dissipation: Solving Pozar's Book Problem

In summary, wave power dissipation is the process of converting electromagnetic wave energy into heat through various mechanisms. Pozar's book problem is an important example for understanding this concept. The formula for calculating wave power dissipation is P = Re(E * H*), derived from the Poynting vector. Techniques such as using low-resistance materials and optimizing design can minimize power dissipation. Applications of wave power dissipation include electronic circuits, telecommunications, and the design of antennas and other electromagnetic systems.
  • #1
baby_1
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Hello
Here is a problem of Pozar's Book(mircowave).
3138618200_1426493850.jpg

and here is solution:
9209475200_1426493850.jpg

my problem is I don't know how he obtain -40.6 because
|T|^2 (T is Reflection Coefficient ) is return power and 1-|T|^2 is transfer powe but 10log none of them return -40.6 , what does -40.6 and how can calculate it?

 
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  • #2
##| \Gamma|^2 = .999956^2 + .0000435^2 ##
## 1 - | \Gamma|^2 = 8.7996e-005##
## 10 log_{10} (8.7996e-005) = -40.6 ##
Perhaps it was the modulus of the complex number that threw you off? Or was it the base10 log?
 
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1. What is wave power dissipation?

Wave power dissipation refers to the process of converting the energy of an electromagnetic wave into heat. This can occur through various mechanisms, such as resistive losses in a conductor or dielectric, radiation losses, or scattering.

2. Why is Pozar's book problem important in the study of wave power dissipation?

Pozar's book problem is a commonly used example to illustrate the concept of wave power dissipation. It provides a simplified scenario in which the power dissipated by a wave can be easily calculated, and serves as a useful tool for understanding more complex systems.

3. What is the formula for calculating wave power dissipation?

The formula for calculating wave power dissipation is P = Re(E * H*), where P is the power dissipated, E is the electric field vector, and H* is the complex conjugate of the magnetic field vector. This formula is derived from the Poynting vector, which represents the flow of energy in an electromagnetic field.

4. How can wave power dissipation be minimized?

There are several ways to minimize wave power dissipation, depending on the specific system and its requirements. Some methods include using materials with low electrical resistance, optimizing the design to reduce scattering and reflection, and using frequency-selective surfaces to control the flow of energy.

5. What are the applications of wave power dissipation?

Wave power dissipation has many practical applications, such as in electronic circuits where minimizing power losses is important for efficiency. It is also crucial in fields such as telecommunications, where controlling the dissipation of electromagnetic waves is essential for proper functioning of devices. Additionally, wave power dissipation is a key consideration in the design of antennas and other electromagnetic systems.

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