Since white light is a mixture of all colors, and black is the absence of light, white light would have a higher frequency.
Gamma rays have the highest energy on the electromagnetic spectrum. They have the shortest wavelengths and highest frequencies, making them the most energetic form of electromagnetic radiation. These rays are produced by the hottest and most energetic celestial objects like black holes and supernovae.
There is no 'type' of light as light, is just simply light, however, the largest energy output of light known today is a gamma ray burst. Often caused by a collapsing star and in most if not all, the beginning of a black hole.
Gamma rays
That would be gamma, or γ.The electromagnetic spectrum goes:Radio wavesMicrowavesInfraredVisible Light (ROGYBIV)UltravioletX RayGamma Ray.The closer to the bottom, the more energy.
A gamma ray photon is a high-energy electromagnetic wave that has the shortest wavelength and highest frequency in the electromagnetic spectrum. They are produced in nuclear reactions, radioactive decay, and some astronomical phenomena, such as supernovae and black holes. Gamma rays can penetrate through most materials and can be dangerous to living organisms due to their ionizing properties.
Yes, but in the case of solid objects that possess heat it is more proper to refer to them as black body radiators.
Gamma rays have the highest energy on the electromagnetic spectrum. They have the shortest wavelengths and highest frequencies, making them the most energetic form of electromagnetic radiation. These rays are produced by the hottest and most energetic celestial objects like black holes and supernovae.
There is no 'type' of light as light, is just simply light, however, the largest energy output of light known today is a gamma ray burst. Often caused by a collapsing star and in most if not all, the beginning of a black hole.
Gamma rays
That would be gamma, or γ.The electromagnetic spectrum goes:Radio wavesMicrowavesInfraredVisible Light (ROGYBIV)UltravioletX RayGamma Ray.The closer to the bottom, the more energy.
When an observer points his radio telescope onto an area in the skies which is supposed to contain a black hole, received signal will be carrying information mostly about X-rays (part of spectrum beyond visible violet color) which are emitted when that black hole consumes matter.
Most of the radiation that produces a black body spectrum is emitted from the surface of the object itself. This radiation is a result of thermal vibrations of the atoms and molecules on the object's surface, which generate a continuous spectrum of electromagnetic radiation across various wavelengths.
A gamma ray photon is a high-energy electromagnetic wave that has the shortest wavelength and highest frequency in the electromagnetic spectrum. They are produced in nuclear reactions, radioactive decay, and some astronomical phenomena, such as supernovae and black holes. Gamma rays can penetrate through most materials and can be dangerous to living organisms due to their ionizing properties.
light is frequency as our eyes detect the frequency spectrum of colors white is the brightest that we can see. Of course black is just the absence of light
No. The gravitational field of a black hole is so great that electromagnetic radiation in the visible spectrum does not escape from them. Therefore, you couldn't directly see a black hole regardless of where you were in the universe.
The black body equation describes this in detail, it is called Plank's law. All bodies emit electromagnetic radiation. The hotter the body the higher the average frequency. Refer to the links in the Related links for lots of detail.
Gamma rays have the shortest wavelength and the highest frequency among all electromagnetic waves. They are produced by the hottest and most energetic objects in the universe, such as pulsars and black holes.