Gamma rays have more energy than visible light rays. Visible light has a longer wavelength. Gamma rays have a shorter wavelength and higher frequency, and have the most energy of all electromagnetic radiation.
The more energy electromagnetic radiation has, the more penetrating it is (in general; there are exceptions for substances that are transparent to some wavelengths but not others).
The terms "gamma ray" and "X-ray" are used to designate how the radiation was produced, not its energy or wavelength or frequency (the three concepts are interrelated). So it's not possible to say definitively that gamma rays are more penetrating than X-rays; the frequency ranges for the two terms overlap considerably.
Gamma ray wavelengths are anything 10 picometers or less. For comparison, atoms vary in diameter from 62 picometers (He) to 520 picometers (Cs).
Yes, gamma rays always have a shorter wavelength than X-rays.
gamma rays are by order of magnitude trillions of times hotter than the sun and even higher
they can, but with much lower efficency than beta radiation as many of the high energetic gamma rays "fly through" the imaging plate without interaction
yes. the spectrum is roughly radio waves, infrared, ROYGBIV (beginning with red and ending in violet),ultra violiet, xrays, gamma rays. seeing that blues location is closer to the gamma rays than red, it is indeed more dangeous. Still it's so small that it doesn't really matter
No one "invented" gamma radiation. It has been here since the beginning of time. Paul Villard, a French chemist and physicist, while working with Radium, discovered the effects of gamma radiation in 1900, noting that gamma radiation was different than the previously identified alpha and beta radiation.
Yes - as with all other wavelengths on the em spectrum - however, not to a high intensity. You'd be surprised the moon is actually brighter than the sun when viewed in 'gamma ray vision'.
Red light does not penetrate more than gamma rays.
Ultraviolet light, x-rays, and gamma rays carry more energy than visible light. (That's why ultraviolet light does nasty things to skin cells, and x-rays and gamma rays can penetrate solids.)
alpha radiation is more dangerous than beta or gamma if ingested or inhaled because its power to ionize (or to disrupt atoms) is 20x than that of beta and gamma. but if the source is outside the body or at a distance gamma radiation is much dangerous because it could penetrate thick walls.
No; gamma rays are considered a separate category of radiation, more energetic than x-rays.
No, gamma rays have the highest energy of all the waves in the Electromagnetic Spectrum.
Yes, of course.
Y-rays do exist. The Y is the Greek symbol for gamma. Gamma rays have more energy than x-rays and are therefore put after them.
Gamma radiation. Alpha radiation is the least penetrating, beta radiation penetrates and lasts longer than alpha but also "dies out" relatively quickly, but Gamma radiation will not only penetrate deep, but it will also stay long.
Each gamma-ray photon carries more energy than an X-ray photon. So gamma rays are more penetrating than X-rays, and have a greater photoelectric effect. But you can still pack more energy into an X-ray beam, simply by generating more photons, i.e. operate a 'brighter' source.
Theoretically, gamma rays are distinguished by their source, not by the amount of energy each photon carries, so it's not really possible to answer.In practice, most gamma rays have far more energy per photon than visible light.
Yes, X-rays and gamma rays have higher frequencies than ultraviolet rays.
Gamma rays are more penetrating than alpha and beta particles.