they are magnetic
Light and other forms of electromagnetic radiation are given off by stars using energy released during nuclear fusion processes occurring in their cores. As a star converts hydrogen into helium through nuclear fusion, tremendous amounts of energy in the form of light and heat are produced and emitted into space. This is what provides the light and warmth we receive from stars such as our Sun.
Stars give off a variety of radiation, including visible light, ultraviolet light, infrared radiation, and X-rays. This radiation is a result of nuclear fusion processes happening within the star's core, which produce immense amounts of energy that are then radiated outwards into space.
The gravitational pressure and heat created by gravity causes nuclear fusion to occur in the core of the star. This energy flows through the star to its exterior, where it is radiated into space.
The hottest stars primarily emit electromagnetic waves in the form of ultraviolet (UV) radiation. These stars, with surface temperatures exceeding 30,000 Kelvin, have significant energy output in the UV spectrum, which is much higher than that of cooler stars. Additionally, they also emit X-rays and visible light, but their peak radiation is typically in the ultraviolet range due to their high temperatures.
they are magnetic
Yes.
Light and other forms of electromagnetic radiation are given off by stars using energy released during nuclear fusion processes occurring in their cores. As a star converts hydrogen into helium through nuclear fusion, tremendous amounts of energy in the form of light and heat are produced and emitted into space. This is what provides the light and warmth we receive from stars such as our Sun.
Mainly electromagnetic radiation.
Stars emit various forms of electromagnetic radiation, including visible light, ultraviolet light, and infrared radiation, by using the energy released during nuclear fusion in their cores. This energy is produced through the fusion of hydrogen into helium, resulting in the emission of light and other electromagnetic waves.
Yes
the sun
Stars give off a variety of radiation, including visible light, ultraviolet light, infrared radiation, and X-rays. This radiation is a result of nuclear fusion processes happening within the star's core, which produce immense amounts of energy that are then radiated outwards into space.
I believe electromagnetic-a form of radiation.
Because they give off absolutely no light and no radiation. The only radiation is X-Rays from the stars being sucked in.
It doesn't. Evolutionists say that the best explanation is that the x-rays are resonating from the big bang, but there is absolutely no proof for that statement. the radiation could come from anywhere in the universe. Gases circling black holes give of large amounts of radiation, and many stars also give off radiation.
"Ionizing" means that it can convert atoms and molecules into ions. In other words, it can knock off one or more electrons.