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A star is a huge celestial body composed mainly of hydrogen and helium gases undergoing nuclear fusion in its core that produces light and heat through the release of energy.
If a star is massive enough, after it produces a supernova it can either leave behind a neutron star or collapse into a black hole, depending on the mass of the original star.
Stars are the only objects in space that give off their own light.Other objects are visible only if a star shines on them.
The most important star for Earth is the Sun. It provides heat and light, which are essential for life on our planet. Without the Sun, Earth would not have the necessary conditions to support life as we know it.
the sun creates it's on heat because it already fire
The star that produces the most light is the Sun. It is classified as a main-sequence star, and its luminosity is about 3.8 x 10^26 watts.
A parent star is a star that produces a planet's heat and light.
Yes.... The sun is a star, so it produces its own light by nuclear fusion of hydrogen into helium.
energy released during the process of nuclear fusion in the star's core
Only the star. Asteroids, planets and moons just reflect light from the Sun.
Incandescent
The amount of light a star produces can give insights into its temperature, size, and relative luminosity compared to other stars. It can also help astronomers determine the star's distance from Earth and its age.
Because of nuclear fusion! The nuclear fusion releases energy which produces light.
No. A star is an object in space that produces heat and light through nuclear fusion. Stars are not living things.
No. Every star you see produces its own light, just as the sun does. Which isn't surprising when you recall that the sun is a star.
The heat and the light in stars is the same thermal nuclear fission that our Sun (a star) produces.
Stars play a variety of roles. First and foremost, the sun is a star. It provides the heat and light necessary for life of Earth. Stars also create most of the elements we find. Before stars started forming all matter in the universe consisted of hydrogen, helium, and trace amounts of lithium. All other elements have since been made in the thermonuclear furnaces of stars.