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What else can I help you with?
What does the electromagnetic spectrum have to do with the study of stars?
star produce radiation and it is usually gamma which is deadly and it affects the color of the star
What is traveling medium of radiation?
Electromagnetic Radiation requires no medium. Light is a form of electromagnetic radiation, and it can traverse the stars.
Do stars produce electromagnetic waves?
Yes, stars produce electromagnetic waves as a result of nuclear fusion reactions in their cores. The energy released during these reactions causes the stars to emit electromagnetic radiation across various wavelengths, including visible light, ultraviolet light, and X-rays.
Which types of electromagnetic radiation do all stars emit?
Optical light
Which type of energy is given off by stars?
Mainly electromagnetic radiation.
Do stars radiate heat energy?
Yes, stars radiate heat energy in the form of electromagnetic radiation, which includes visible light, ultraviolet light, and infrared radiation. This is how stars produce light and heat that we can see and feel from Earth.
Are stars primary sources of light?
Yes, stars are primary sources of light. They produce light and heat through nuclear fusion in their cores, which results in the emission of energy in the form of light and other electromagnetic radiation.
What type of energy do stars emit?
Our sun emits mostly visible and ultra-violet radiation
What is the nature of the energy emitted by stars?
The energy is called electromagnetic radiation (light energy).
What wave are produced by stars?
it is almost the same type that is used in microwaves but a lot stronger
Why is the electromagnetic spectrum such as radio waves used to study space?
Most stars and many other objects in space emit radio and microwave radiation. Even the big bag emitted electromagnetic radiation.
What Light and other forms if electromagnetic radiation are given off by stars using energy released during?
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.
