Wavelength = (speed) / (frequency)
= (3 x 108) / (4.32 x 1020) = 6.94 x 10-13 meter = 6.94 x 10-4 nanometers
Wavelength = (speed) divided by (frequency) =
(3 x 108) / (2.73 x 1020) = 1.0989 x 10-12meter = roughly 0.001 nanometer
E = hν = 6.626x10-34 Jsec x 5.02x1020 sec-1 = 3.33x10-14 J
X-rays have the highest frequency in the electromagnetic spectrum.
It will become longer, and it will carry less energy, its also likely, that if the change or loss in frequency is enough, the radiation will become a different type of electromagnetic radiation in the spectrum like gamma to x-rays or visible light to infrared and so on.
"Gamma" is the name given to the electromagnetic radiation with the highest frequency (shortest wavelength, highest energy).
We know that gamma rays are electromagnetic energy, and they'll occupy a place on the electromagnetic (EM) spectrum. You can locate gamma rays right at the top end of the EM spectrum because their frequencies are so high (or their wavelengths are so short, if you prefer).
It is electromagnetic radiation, which is the same in composition as visible light but has a much higher frequency/shorter wavelength, and will do damage to any biological material it passes through. Both travel at the same speed ('velocity of light') but gamma radiation can penetrate material opaque to visible light.
"Gamma" is the name given to the electromagnetic radiation with the highest frequency (shortest wavelength, highest energy).
Gamma radiation is a form of electromagnetic radiation with a short wavelength and therefore high frequency and high energy per photon. Gamma radiation is also known as gamma rays.
It is electromagnetic radiation just like radio, microwaves, visible light etc.. except it has the highest frequency and energy and shortest wavelength of all electromagnetic radiation.
X-rays have the highest frequency in the electromagnetic spectrum.
What we currently observe as gamma radiation from nuclear events in stars is something like 10 to 100 exahertz. That's about the upper frequency limit of the electromagnetic radiation we know of, and it will have the shortest wavelength (something at or under 30 nano millimeters). It isn't a stretch to imagine frequencies higher than that, but what is it that can generate electromagnetic oscillations in that range?
In the electromagnetic spectrum Gamma radiation has the highest frequency.
Gamma radiation
The gamma ray has the shortest wavelength (and shortest period) as well as the highest frequency (and highest energy) of all forms of electromagnetic radiation.That's the part of the spectrum that we call "gamma rays".There is no definite answer to this as we can have shorter and shorter wavelengths from a value which we have assigned to be the shortest wavelength.However, gamma rays have the shortest wavelength in the electromagnetic spectrum.Gamma radiation ;)The region of the spectrum that we call "gamma rays" has.
Gamma rays have the shortest wavelength compared to most of other electromagnetic radiation. Gamma rays have high penetrating power and are high in frequency. Exposure to this type of radiation can cause many health complications.
It will become longer, and it will carry less energy, its also likely, that if the change or loss in frequency is enough, the radiation will become a different type of electromagnetic radiation in the spectrum like gamma to x-rays or visible light to infrared and so on.
"Gamma" is the name given to the electromagnetic radiation with the highest frequency (shortest wavelength, highest energy).
Gamma Rays