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Recalculate frequency. See what a "revolution per minute" is in another dictionary.

Recalculate frequency. See what a "revolution per minute" is in another dictionary.

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Hertz exahertz petagerts terahertz gigahertz megahertz kilohertz Hertz Hertz in meters in meters in meters in meters in meters in meters in meters in meters in meters wavelength in micrometers Compto electronic wavelengths Compto new proton wavelengths Compton neutron wavelengths in revolutions per second 1 Revolutions per minute 1 revolutions per hour
More information on frequency and wavelength.
General Information

Frequency is a measure of how often a particular cyclic process is repeated. The use of frequency in physics indicates the nature of the wave process. Wave Frequency - The total number of cycles in a wave process per unit time. The frequency unit of the SI system is hertz (Hz). One hertz is equal to one vibration per second.

There are many kinds of waves in nature, from wind to sea waves to electromagnetic waves. The characteristics of the electromagnetic wave depend on the wavelength. These waves are divided into several types. Gamma rays have a wavelength of up to 0.01 nanometers (nm).
    X-rays have a wavelength of from 0.01 nm to 10 nm.
    Wave ultraviolet range These have a length of 10 to 380 nm. They are invisible to the human eye.
    The visible part of the light spectrum has a wavelength of 380-700 nm.
    It is invisible to people. The infrared wavelength is 1 mm at 700 nm.
    Infrared radiation follows. Microwave, the wavelength is 1 millimeter to 1 meter.
    Longest - Propagation. Their length starts at 1 m.

This article is about electromagnetic radiation, especially light. This section describes the effects of wavelength and frequency on light, including visible spectrum, ultraviolet, and infrared.
Electromagnetic radiation

Electromagnetic radiation is the energy of waves and particles, as well as of similar properties. This function is called wave-wave dualism. Electromagnetic waves are composed of magnetic waves and electric waves perpendicular to them.

The energy of electromagnetic radiation is the result of the movement of particles called photons. The higher the frequency of radiation, the higher the frequency of activity and the more damage to the cells and tissues of the organism. This is because the higher the radiation frequency, the more energy it carries. Large energies enable them to change the molecular structure of the materials they act upon. This is why ultraviolet, X-ray and gamma rays are very harmful to animals and plants. A huge part of this radiation is in space. It exists on Earth despite the fact that the atmosphere's ozone layer around the Earth blocks most of it.

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