Want this question answered?
For any electromagnetic wave, from the highest gamma wave to the lowest radiowave, the product of (frequency) times (wavelength) is always the 'speed of light'in whatever substance the waves happen to be waving along at the moment.So if the wavelength of any of them should decrease, for whatever reason, itsfrequency would have to increase, in order to keep the product constant.
In any set of different wavelengths, the wave which has the shortest wavelength is the wave which has the highest frequency.This is true is because any wave's frequency and wavelength are directly related by the speed at which the wave travels along: its 'speed of propogation'.The relevant formula is wavelength x frequency = speed of propogation.More informationA radio wave is an electromagnetic wave. It's a form of electromagnetic radiation.The term "radio" is the name given to a part of the spectrum of electromagnetic waves that is used for radio and television broadcasting, mobile phones, terrestrial and satellite wireless communications networks, etc.The whole wide spectrum of electromagnetic waves has frequencies (and wavelengths) ranging from "audio" to "radio" to "infrared" to "visual light" to "X-Rays", and beyond to "gamma rays" at the very top end of the spectrum.Frequency and wavelength are directly related by the speed at which the wave travels: its "speed of propogation".The relevant formula is wavelength x frequency = speed of propogation.The speed of propogation of electromagnetic waves travelling through space is approximately 186,000 miles per second. (About 300,000 kilometers per second.)
It moves along the spectrum. Nothing particularly happens. If the wave is in the audible part of the spectrum the pitch will get higher. If it is in the visable part of the spectrum it will turn from red eventually to blue before it disappears. It will stilll be there you just cant see it anymore.
From longest to shortest wavelength, the colors are:red orange yellow green blue indigo violetThe mnemonic is Roy G. Biv (also Richard Of York Gave Battle In Vain)
UV light is the same as any other kind of light or radiation along the spectrum from radioactive waves to radio waves. The difference between them is their wavelength and fequency. The longer the wavelength, the less the frequency. UV light is high-frequency short-wavelength light, just a bit more high-frequency than the highest-frequency visible light, which is violet. How does light work? Well, even physicists aren't quite sure.
The wavelength decreases.The speed of light is the speed of all electromagnetic radiation (such as radio waves, light waves, gamma rays, etc.) in vacuum.The speed of light (c) is a physical constant with the exact value of 299,792,458 m/s.speed of light = frequency x wavelengthso when frequency increases, wavelength decreases .
For any electromagnetic wave, from the highest gamma wave to the lowest radiowave, the product of (frequency) times (wavelength) is always the 'speed of light'in whatever substance the waves happen to be waving along at the moment.So if the wavelength of any of them should decrease, for whatever reason, itsfrequency would have to increase, in order to keep the product constant.
X-Rays are part of the Electromagnetic spectrum, along with radio waves, microwaves, infra-red, visible light, ultraviolet rays and gamma radiation.
The shortest wavelength of visible light for your eye is the wavelength of the lastcolor you can see on the blue end of the rainbow. It may be slightly different forsomeone else's eye.
In any set of different wavelengths, the wave which has the shortest wavelength is the wave which has the highest frequency.This is true is because any wave's frequency and wavelength are directly related by the speed at which the wave travels along: its 'speed of propogation'.The relevant formula is wavelength x frequency = speed of propogation.More informationA radio wave is an electromagnetic wave. It's a form of electromagnetic radiation.The term "radio" is the name given to a part of the spectrum of electromagnetic waves that is used for radio and television broadcasting, mobile phones, terrestrial and satellite wireless communications networks, etc.The whole wide spectrum of electromagnetic waves has frequencies (and wavelengths) ranging from "audio" to "radio" to "infrared" to "visual light" to "X-Rays", and beyond to "gamma rays" at the very top end of the spectrum.Frequency and wavelength are directly related by the speed at which the wave travels: its "speed of propogation".The relevant formula is wavelength x frequency = speed of propogation.The speed of propogation of electromagnetic waves travelling through space is approximately 186,000 miles per second. (About 300,000 kilometers per second.)
Visible light. There are eight parts of the spectrum: Radio, Microwave, Infrared, visible light, ultraviolet, X-rays, and gamma rays. They are listed from shortest wavelength to longest wavelength.
It moves along the spectrum. Nothing particularly happens. If the wave is in the audible part of the spectrum the pitch will get higher. If it is in the visable part of the spectrum it will turn from red eventually to blue before it disappears. It will stilll be there you just cant see it anymore.
Spectroscopy is basically the study of the spectrums of visible and non-visible light rays. Specifically, it is determining the output of radiation an object has along the spectrum. This is called a wavelength.
That depends which way you are moving along the electromagnetic spectrum.If you are moving from low to high frequency, then the last category before visible light is infrared radiation.If you are moving from short to long wavelength, then the last category before visible light is ultraviolet radiation.
When a traveling wave is reflected, the reflected wave and incident wave can add to porduce peaks and nodes at different distances along the path. These are measures of the EM wavelength.
Type Answer here.........
From longest to shortest wavelength, the colors are:red orange yellow green blue indigo violetThe mnemonic is Roy G. Biv (also Richard Of York Gave Battle In Vain)