The wavelength of the x-ray is shorter.
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.
Light will not interfere with another light. It will not combine either. Even laser beams will not interfere with one another if crossed. Only phonons in a material will react with one another.
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.
Xray
increasing its frequency
There is no antonym. An xray is a wavelength. There is no opposite.
Xrays have smaller wavelengths, and can only been seen from the shadows it makes on xray paper. X-rays have a shorter wavelength than ultraviolet, thus making them smaller photons, hard x-radiation has a wavelength around .01 nanometers and ultraviolet has a wavelength around 10 nanometers at the shortest wavelength. This means it is easier for the smaller x-rays to penetrate the human body than ultraviolet wavelengths. 1000 nanometers = 1 micron, 1000000 microns = 1 millimeter
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.
xray radiation and ultraviolet radiation
xray radiation and ultraviolet radiation
Light will not interfere with another light. It will not combine either. Even laser beams will not interfere with one another if crossed. Only phonons in a material will react with one another.
Ultraviolet is between those two.
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.
Intensity is independent of frequency or wavelength. So whether it is Xray or gamma ray both can have the same intensity.
when taking a dental xray how do u make it appear on the xray more darker in color?
E=hv where E=energy v=frequency v=Planck's constant as you move further towards the xray side, frequency and energy increase.
had a chest xray, there was a shadow over my heart what is it