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Infrared signals are the electromagnetic radiations with wavelengths longer than the visible light but shorter than the radio waves. Infrared signals, with frequencies from 300 GHz to 400 THz (wavelengths from 1 mm to 770 nm) can be used for the short range communication. Infrared signals, having high frequencies can not penetrate into the walls.By Robert John Smith
Yes, the shorter the wavelength, the higher the energy. Gamma waves have the shortest wavelengths of all the electromagnetic radiation waves and carry the greatest energy. Radio and TV waves have the longest wavelengths and carry the least energy.
Millimetre waves are Extremely High Frequency (EHF) electromagnetic waves with wavelengths in the millimetre range.EHF frequencies are from 30 GHz (30 000 MHz) to 300 GHz (300 000 MHz), and EHF is considered the highest radio frequency band - above this, electromagnetic radiation is considered to be infra-red.
Yes, sound waves with very high frequencies can be able to drive the sound waves.
Electromagnetic waves are classified according to their wavelength and frequency and this classification is called electromagnetic spectrum.
The meaning of a high frequency wave is a shorter wavelength.For electromagnetic waves in general (including light):* At greater frequencies, you get shorter wavelengths.* At greater frequencies, you get more energy per photon.
Radio waves
Infrared signals are the electromagnetic radiations with wavelengths longer than the visible light but shorter than the radio waves. Infrared signals, with frequencies from 300 GHz to 400 THz (wavelengths from 1 mm to 770 nm) can be used for the short range communication. Infrared signals, having high frequencies can not penetrate into the walls.By Robert John Smith
The X-rays have shorter wavelengths ... shorter than the shortest wave to which the eye responds.
Yes, the shorter the wavelength, the higher the energy. Gamma waves have the shortest wavelengths of all the electromagnetic radiation waves and carry the greatest energy. Radio and TV waves have the longest wavelengths and carry the least energy.
The use of high frequencies for carrier waves in communications permits a higher rate of information transfer than could be accomplished with lower frequencies. The higher frequencies have the potential for higher "data density" or "information density" than lower frequencies.
shorter
Low frequency waves are waves with long wavelengths, by definition, since their cycle is slowly repeated. One example is AM radio waves compared to visible light waves. AM radio waves have a frequency of around 1 MegaHertz (1,000,000 s-1) and are around 500 meters long. In contrast, visible light waves have a frequency of around 500 TeraHertz (300,000,000,000,000 s-1) and are around 500 nanometers long (.000000500 meters).
Millimetre waves are Extremely High Frequency (EHF) electromagnetic waves with wavelengths in the millimetre range.EHF frequencies are from 30 GHz (30 000 MHz) to 300 GHz (300 000 MHz), and EHF is considered the highest radio frequency band - above this, electromagnetic radiation is considered to be infra-red.
by observing in high-energy wavelengths such as X rays and long wavelengths of light such as radio waves
high frequency = short wavelength
High frequencies are more damped by air than low frequencies.