Depends what you consider 'high'.
The frequency of X-rays is higher than the frequency of radio, light, Middle-C, and
a subscription to Scientific American, but lower than the frequency of some other
types of electromagnetic radiation.
We have no idea what you call "high" or "long", so no direct answer is possible.
X-rays have higher energy, and shorter wavelength, than radio, microwave, heat,
infrared, visible light, and ultraviolet radiation.
There is no antonym. An xray is a wavelength. There is no opposite.
E=hv where E=energy v=frequency v=Planck's constant as you move further towards the xray side, frequency and energy increase.
X-ray. The energy of a light photon is inversely proportional to its wavelength. (so as the wavelength shortens, the energy goes up.) X-rays have the shortest wavelengths of the types of light you mentioned. In order of energy highest to lowest, the lights you mentioned would be: x-ray, ultraviolet, blue, microwave.
It depends on the energy of the xray....
increasing its frequency
Energy that is radiated in a wave such as radio waves, white light, uv light and xray.
Energetic High-frequency Electromagnetic Radiation
2 years
Intensity is independent of frequency or wavelength. So whether it is Xray or gamma ray both can have the same intensity.
infrared, ROY G BIV, ultraviolet, xray, gamma ray, cosmic ray That's the order they fall in when you sort them by frequency or wavelength.
The electron loses energy in order to go from an "excited" shell back to its "original" shell. This releases energy in the form of a photon - an xray.
Dual-energy Xray Absorptiometry is used to measure bone density to detect Osteoporosis.