No. X-rays have much higher frequencies.
Infrared, microwave, and radio are electromagnetic radiation with lower frequencies than visible light.
Xrays, gamma rays, microwaves, ultraviolet rays, radiowaves and infrared rays.
TV
Basically, is a device which measures the amplitude and frequencies of a sound wave. It is shown on a screen. Closer waves, higher frequencies. Longer waves, lower frequencies.
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
Ultraviolet is higher frequency, then visible light, then infrared.
Infrared radiation from roughly 300 GHz (1 mm) to 400 THz (750 nm) Divided into three parts; far-infrared - the lower part of this range may be called microwaves, mid-infrared and near-infrared frequencies.
Many light frequencies give off heat. Infrared is one of those frequencies.
Examples of electromagnetic energy are radio waves, Xrays, optical light waves, infrared waves, sunlight and lightening.
Infrared, microwave, and radio are electromagnetic radiation with lower frequencies than visible light.
Frequencies: .003 - 4 x 1014 Hz
Xrays, gamma rays, microwaves, ultraviolet rays, radiowaves and infrared rays.
TV
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no
Basically, is a device which measures the amplitude and frequencies of a sound wave. It is shown on a screen. Closer waves, higher frequencies. Longer waves, lower frequencies.
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.