Electromagnetic Spectrum

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Electromagnetic (EM) radiation is a form of energy that is all around us and takes many forms, such as radio waves, microwaves, X-rays and gamma rays. Sunlight is also a form of EM energy, but visible light is only a small portion of the EM spectrum, which contains a broad range of electromagnetic wavelengths. Electromagnetic theory Electricity and magnetism were once thought to be separate forces. However, in 1873, Scottish physicist James Clerk Maxwell developed a unified theory of electromagnetism.

The study of electromagnetism deals with how electrically charged particles interact with each other and with magnetic fields. There are four main electromagnetic interactions:. The force of attraction or repulsion between electric charges is inversely proportional to the square of the distance between them. Magnetic poles come in pairs that attract and repel each other, much as electric charges do. An electric current in a wire produces a magnetic field whose direction depends on the direction of the current. A moving electric field produces a magnetic field, and vice versa. Maxwell also developed a set of formulas, called Maxwell's equations, to describe these phenomena.

Waves and fields EM radiation is created when an atomic particle, such as an electron, is accelerated by an electric field, causing it to move. The movement produces oscillating electric and magnetic fields, which travel at right angles to each other in a bundle of light energy called a photon. Photons travel in harmonic waves at the fastest speed possible in the universe: 186,282 miles per second (299,792,458 meters per second) in a vacuum, also known as the speed of light. The waves have certain characteristics, given as frequency, wavelength or energy.

Electromagnetic waves are formed when an electric field (shown in red arrows) couples with a magnetic field (shown in blue arrows). Magnetic and electric fields of an electromagnetic wave are perpendicular to each other and to the direction of the wave. Credit: NOAA. A wavelength is the distance between two consecutive peaks of a wave. This distance is given in meters (m) or fractions thereof. Frequency is the number of waves that form in a given length of time.

It is usually measured as the number of wave cycles per second, or hertz (Hz). A short wavelength means that the frequency will be higher because one cycle can pass in a shorter amount of time, according to the. Similarly, a longer wavelength has a lower frequency because each cycle takes longer to complete. The EM spectrum EM radiation spans an enormous range of wavelengths and frequencies. This range is known as the electromagnetic spectrum.

The EM spectrum is generally divided into seven regions, in order of decreasing wavelength and increasing energy and frequency. The common designations are: radio waves, microwaves, infrared (IR), visible light, ultraviolet (UV), X-rays and gamma rays.

Typically, lower-energy radiation, such as radio waves, is expressed as frequency; microwaves, infrared, visible and UV light are usually expressed as wavelength; and higher-energy radiation, such as X-rays and gamma rays, is expressed in terms of energy per photon. The electromagnetic spectrum is generally divided into seven regions, in order of decreasing wavelength and increasing energy and frequency: radio waves, microwaves, infrared, visible light, ultraviolet, X-rays and gamma rays. Credit: Biro Emoke Shutterstock Radio waves Radio waves are at the lowest range of the EM spectrum, with frequencies of up to about 30 billion hertz, or 30 gigahertz (GHz), and wavelengths greater than about 10 millimeters (0.4 inches). Radio is used primarily for communications including voice, data and entertainment media. Microwaves Microwaves fall in the range of the EM spectrum between radio and IR.

They have frequencies from about 3 GHz up to about 30 trillion hertz, or 30 terahertz (THz), and wavelengths of about 10 mm (0.4 inches) to 100 micrometers (μm), or 0.004 inches. Microwaves are used for high-bandwidth communications, radar and as a heat source for microwave ovens and industrial applications. Infrared Infrared is in the range of the EM spectrum between microwaves and visible light.

IR has frequencies from about 30 THz up to about 400 THz and wavelengths of about 100 μm (0.004 inches) to 740 nanometers (nm), or 0.00003 inches. IR light is invisible to human eyes, but we can feel it as heat if the intensity is sufficient. Visible light Visible light is found in the middle of the EM spectrum, between IR and UV.

It has frequencies of about 400 THz to 800 THz and wavelengths of about 740 nm (0.00003 inches) to 380 nm (.000015 inches). More generally, visible light is defined as the wavelengths that are visible to most human eyes.

Electromagnetic

Ultraviolet Ultraviolet light is in the range of the EM spectrum between visible light and X-rays. It has frequencies of about 8 × 10 14 to 3 × 10 16 Hz and wavelengths of about 380 nm (.000015 inches) to about 10 nm (0.0000004 inches). UV light is a component of sunlight; however, it is invisible to the human eye.

It has numerous medical and industrial applications, but it can damage living tissue. X-rays are roughly classified into two types: soft X-rays and hard X-rays. Soft X-rays comprise the range of the EM spectrum between UV and gamma rays. Soft X-rays have frequencies of about 3 × 10 16 to about 10 18 Hz and wavelengths of about 10 nm (4 × 10 −7 inches) to about 100 picometers (pm), or 4 × 10 −8 inches.

Electromagnetic Spectrum For Kids

Hard X-rays occupy the same region of the EM spectrum as gamma rays. The only difference between them is their source: X-rays are produced by accelerating electrons, while gamma rays are produced by atomic nuclei. Gamma-rays Gamma-rays are in the range of the spectrum above soft X-rays. Gamma-rays have frequencies greater than about 10 18 Hz and wavelengths of less than 100 pm (4 × 10 −9 inches). Gamma radiation causes damage to living tissue, which makes it useful for killing cancer cells when applied in carefully measured doses to small regions. Uncontrolled exposure, though, is extremely dangerous to humans. Additional resources.

Jim Lucas, Live Science Contributor Jim Lucas is a contributing writer for Live Science. He covers physics, astronomy and engineering. Jim graduated from Missouri State University, where he earned a bachelor of science degree in physics with minors in astronomy and technical writing. After graduation he worked at Los Alamos National Laboratory as a network systems administrator, a technical writer-editor and a nuclear security specialist.

Electromagnetic

Electromagnetic Spectrum Worksheet

In addition to writing, he edits scientific journal articles in a variety of topical areas.

Electromagnetic spectrum, the entire distribution of according to. Although all electromagnetic waves travel at the in a vacuum, they do so at a wide range of frequencies, wavelengths, and energies. The electromagnetic the span of all electromagnetic radiation and consists of many subranges, commonly referred to as portions, such as visible light or ultraviolet radiation.

The various portions bear different names based on differences in behaviour in the emission, transmission, and of the corresponding waves and also based on their different practical applications. There are no precise accepted boundaries between any of these portions, so the ranges tend to overlap. The entire electromagnetic spectrum, from the lowest to the highest frequency (longest to shortest wavelength), includes all radio waves (e.g., commercial and, ), visible,. Nearly all frequencies and wavelengths of electromagnetic radiation can be used for.