Both Gamma Rays and X Rays have a much high frequency that Ultraviolet Rays.
Yes, both do.
Gamma radiation is the only one, except for radio, heat, visible light, and ultraviolet light.
No. Both are examples of electromagnetic radiation. The only difference between them is their respective frequencies (wavelengths). Both travel at the speed that we call the "speed of light" . . . 300,000,000 meters (186,282 miles) per second.
Since x-rays have lower frequencies than gamma rays have, each x-ray photon carries less energy than a gamma ray photon carries. Both carry enough energy to damage living cells.
Both gamma rays and radio waves are part of the electromagnetic spectrum, but gamma rays are much higher frequency (shorter wavelength) than radio waves. Visible light is lower frequency than gamma and higher than radio.
Yes, both do.
Because that term is the name we have given to electromagnetic radiation with the highest observed frequency. If they had lower frequency, then we would call them by another name. And if they're called by that name, then they must be rays of the highest observed frequency, all because that is how we have defined them.
There's a considerable (overlapping) range of frequencies for both gamma rays and cosmic rays, but the upper reach for gamma rays is considered to be higher than that for cosmic rays, all the way to 10^30Hz.
Same speed - light and gamma rays are both electromagnetic waves, but with different frequencies.
No. Gamma rays and radio waves are both electromagnetic waves and travel at the same speed. They just have different wavelengths/frequencies.
Gamma radiation is the only one, except for radio, heat, visible light, and ultraviolet light.
Both gamma rays and X-rays are forms of electromagnetic energy. Also, they are both forms of ionizing radiation. Further, they are found at the very top end (the highest frequencies) of the electromagnetic specturm.
gamma, because its a radioactive source, and used in medicine. Ultraviolet also kills both bacteria and viri.
We might consider gamma rays similar to X-rays. Both are at the top end of the electromagnetic spectrum, with gamma rays generally a bit higher in frequency (though there is a bit of overlap). Some might argue that ultraviolet rays, which are a bit lower in frequency than X-rays, make them similar. But we generally consider X-rays and gamma rays "most" similar as both are forms of ionizing radiation because the energy of the photons is so great.
No. Both are examples of electromagnetic radiation. The only difference between them is their respective frequencies (wavelengths). Both travel at the speed that we call the "speed of light" . . . 300,000,000 meters (186,282 miles) per second.
Since x-rays have lower frequencies than gamma rays have, each x-ray photon carries less energy than a gamma ray photon carries. Both carry enough energy to damage living cells.
Ultraviolet light, visible light, X-rays, microwaves, radio waves, infrared waves, and gamma rays are all on the spectrum of light, are all electromagnetic waves (EM waves). Any EM wave can be considered light. EM waves are composed of photons, which has properties of both a particle and a wave. The difference between different waves on the EM wave/light spectrum is their frequency. For example, radio waves have a very low frequency, microwaves have a slightly higher frequency, then infrared, visible light, ultraviolet, X-rays, gamma rays, etc.