Gamma waves :D
The electromagnetic spectrum is a continuum. The least energetic type of radiation may be found in what is known as "extremely low frequency" radiation (ELF). This is radiation with a frequency in the range 3-30 Hertz. ELF radiation can penetrate seawater and so is particularly useful for communicating with submarines.
Microwaves are similar to radio waves in terms of their electromagnetic nature and frequency range. They are both forms of non-ionizing radiation found in the electromagnetic spectrum.
When we use the term "radiation" as regards energy, probably the first thing that comes to mind is electromagnetic energy. Electromagnetic (EM) energy is often called electromagnetic radiation. We know that this could be radio waves, microwave energy, infrared light, light from the visual spectrum, ultraviolet light, X-rays or gamma rays. All of these are forms of electromagnetic radiation, and a link can be found below for more information.Radiant energy.
The electromagnetic spectrum contains several types of energy, including radio waves, microwaves, infrared radiation, visible light, ultraviolet light, X-rays, and gamma rays. Each type of energy has different wavelengths and frequencies, providing a wide range of uses in various fields.
There is no such thing as the highest frequency. Since photons or electromagnetic travel at the speed of light its frequency correlates to the energy. The highest energy, and thus the highest frequency, is found in cosmic radiation, where a single photon may carry many millions of kiloelectronvolts.
Signs piont to no you stupid are somthing?
The electromagnetic spectrum is a continuum. The least energetic type of radiation may be found in what is known as "extremely low frequency" radiation (ELF). This is radiation with a frequency in the range 3-30 Hertz. ELF radiation can penetrate seawater and so is particularly useful for communicating with submarines.
Microwaves would be found below infrared radiation, which is below visible light. They'd be at the top of what is called the radio spectrum.
Microwaves are similar to radio waves in terms of their electromagnetic nature and frequency range. They are both forms of non-ionizing radiation found in the electromagnetic spectrum.
No, they are a more energetic type of electromagnetic radiation found beyond the blue end of the visible spectrum. Infrared rays are also electromagnetic but have much less energy and longer wavelengths and are found beyond the red end of the visible spectrum.
The part of the electromagnetic spectrum known technically as "visible light" has been found to correspond quite closely to the range that you can see with your eyes.
Electromagnetic spectrum is formed due to the difference of wavelengths and frequency of electromagnetic radiations as they are orderly distributed.
Visible light is found in the electromagnetic spectrum between infrared and ultraviolet light, with wavelengths ranging from about 400 to 700 nanometers. It is the range of electromagnetic radiation that is visible to the human eye.
When we use the term "radiation" as regards energy, probably the first thing that comes to mind is electromagnetic energy. Electromagnetic (EM) energy is often called electromagnetic radiation. We know that this could be radio waves, microwave energy, infrared light, light from the visual spectrum, ultraviolet light, X-rays or gamma rays. All of these are forms of electromagnetic radiation, and a link can be found below for more information.Radiant energy.
The electromagnetic spectrum contains several types of energy, including radio waves, microwaves, infrared radiation, visible light, ultraviolet light, X-rays, and gamma rays. Each type of energy has different wavelengths and frequencies, providing a wide range of uses in various fields.
There is no such thing as the highest frequency. Since photons or electromagnetic travel at the speed of light its frequency correlates to the energy. The highest energy, and thus the highest frequency, is found in cosmic radiation, where a single photon may carry many millions of kiloelectronvolts.
The only property that a ray or wave needs to have in order to be located within the electromagnetic spectrum is that it must be an electromagnetic wave. Gamma rays meet that requirement nicely.