I would imagine that they would - by definition!
Electromagnetic radiation make light by the high energy that it produces that is able to be seen with the naked eye
-- Radiation at frequencies below 1.7 MHz is good because it helps us hear the news on AM radio. -- Radiation at frequencies between 88 and 108 MHz helps us hear music on FM radio. -- Radiation at frequencies around 1 GHz helps us make cell phone calls. -- Radiation at frequencies around 2.45 GHz helps us heat meatloaf and make popcorn, and it can't hurt us if we're careful with it. -- Radiation with wavelengths between 400 and 800 nanometers is good because it helps us see things so that we don't go around bumping into them. -- Radiation with wavelengths between 300 and 400 nanometers can give our skin a nice healthy glow, and it can't hurt us if we're careful with it. -- Radiation with wavelengths between 100 and 300 nanometers can help the doctor check our bones, and it can't hurt us if we're careful with it. -- Radiation with wavelengths less than maybe 350 nanometers can hurt us if we're not careful with it.
the energy that makes the electromagnetic spectrum is electromagnetic radiation
The Electromagnetic Spectrum.
Electromagnetic radiation (EMR) is the oscillation and movement of magnetic and electric fields which are perpendicular to each other. This is the way in which electromagnetic radiation is propagated. Photons are another term for higher energy EMR, and it could also be argued that photons make up some forms of electromagnetic radiation.
Electromagnetic spectrum.
The visible spectrum of the electromagnetic spectrum of radiation
Electromagnetic radiation make light by the high energy that it produces that is able to be seen with the naked eye
Electromagnetic energy from the Sun crosses the interplanetary void in about 8 minutes to reach Earth. The energy reaches us as electromagnetic radiation in a very wide range of wavelengths. Some of these wavelengths can be sensed directly by humans as heat and light. Some wavelengths (frequencies) are transformed by interaction with matter into other wavelengths that interact with the hydrosphere, biosphere, etc. to make life on Earth possible.
Different types of electromagnetic waves have different frequencies; different wavelengths; and different energies per photon.
-- Radiation at frequencies below 1.7 MHz is good because it helps us hear the news on AM radio. -- Radiation at frequencies between 88 and 108 MHz helps us hear music on FM radio. -- Radiation at frequencies around 1 GHz helps us make cell phone calls. -- Radiation at frequencies around 2.45 GHz helps us heat meatloaf and make popcorn, and it can't hurt us if we're careful with it. -- Radiation with wavelengths between 400 and 800 nanometers is good because it helps us see things so that we don't go around bumping into them. -- Radiation with wavelengths between 300 and 400 nanometers can give our skin a nice healthy glow, and it can't hurt us if we're careful with it. -- Radiation with wavelengths between 100 and 300 nanometers can help the doctor check our bones, and it can't hurt us if we're careful with it. -- Radiation with wavelengths less than maybe 350 nanometers can hurt us if we're not careful with it.
That depends on what kind of wave you are talking about. In the case of electromagnetic waves, the smaller wavelengths indeed represent more energetic radiation.
the energy that makes the electromagnetic spectrum is electromagnetic radiation
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A spectrum is a representation of the range of frequencies/wavelengths present in electromagnetic radiation. It may be plotted as the power or intensity on the vertical axis, and the wavelength or frequency on the horizontal axis. When talking about the electromagnetic spectrum it is sometimes presented as a chart or table showing the range of frequencies/wavelengths that are covered by electromagnetic radiation. Thus it represents radiation from radio frequencies through infra red, visible light, ultraviolet light, x-rays and gamma radiation. Where does it come from? The first link below shows the history of "spectrum" which was originally used to refer to the colours of light when split up by a rainbow or prism. It was later used by analogy to refer to "a range of objects". I guess that someone just wanted to make a chart showing how the various radiation types are related.
The Electromagnetic Spectrum.