Properties of Microwave Frequency Range
- These are the radiations that have shorter wavelengths of electromagnetic energy that they can radiate.
- Surfaces made of metal reflect microwaves.
- Microwave phenomena such as diffraction, reflection, interference, and refraction all affect how microwaves are transmitted.
- They are utilized in ovens for cooking and heating since they can easily pass through plastics and glass.
- Shorter distances cause them to attenuate easily.
- The ionosphere does not reflect these radiations.
- It is possible for microwave radiation to enter the atmosphere. Thus, in the satellite communication industry, microwaves are employed to send and receive data to the satellite. Since satellite dishes reflect microwave radiation, we can understand why they are made of metal.
Microwave Frequency Range
A range of electromagnetic waves that are longer than infrared radiation but shorter than radio waves are referred to as microwave frequencies. In general, the microwave frequency range is between one gigahertz (GHz) and three gigahertz, or between thirty centimeters and one millimeter in wavelength. This frequency range is a part of the larger electromagnetic wave spectrum, which also includes microwaves, radio waves, visible light, ultraviolet radiation, gamma rays, infrared radiation, and visible light.
Table of Content
- What is the Microwave Frequency Range?
- Advanced Frequency Band Ranges and Uses
- Engineering of Microwaves and Radio Frequencies
- Working of Microwave frequency range
- Uses of Microwave Frequency Range
- Properties of Microwave Frequency Range
- Applications of Microwave Frequency Range
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