A star is a luminous sphere of plasma held together by its own gravity. It is a massive, glowing sphere of hot gases that produces energy through nuclear fusion reactions in its core.
Types of Stars
There are different types of stars based on their size, temperature, and color. The main types of stars include:
Main Sequence Stars: These are the most common type of stars, including our sun. They fuse hydrogenatoms in their cores.
Red Giants and Supergiants: These are large, cool stars nearing the end of their life cycle.
White Dwarfs: These are small, hot stars that have exhausted their nuclear fuel.
Neutron Stars and Black Holes: These are the remnants of massive stars after they have exploded in a supernova.
Life Cycle of a Star
A star goes through a life cycle that is determined by its mass. The basic stages of a star's life cycle include:
Nebula: A star begins its life as a cloud of gas and dust called a nebula.
Protostar:Gravitycauses the nebula to condense and form a protostar.
Main Sequence: The protostar becomes a main sequence star and fuses hydrogen in its core.
Red Giant or Supergiant: As the star runs out of hydrogen, it expands and becomes a red giant or supergiant.
Planetary Nebula or Supernova: Depending on its mass, a star will either shed its outer layers in a planetary nebula or undergo a supernova explosion.
White Dwarf, Neutron Star, or Black Hole: The remnants of the star form a white dwarf, neutron star, or black hole.
Stars can be observed using telescopes and other astronomical instruments. Astronomers study stars' spectra, luminosity, temperature, and other characteristics to understand their properties and behavior.
There are different types of stars, including main sequence, red giants, white dwarfs, neutron stars, and black holes.
A star's life cycle includes stages such as nebula, protostar, main sequence, and eventual transformation into a white dwarf, neutron star, or black hole.
Earth's surface changes constantly through a variety of processes and forces. Students can:
Analyze and interpret data identifying ways Earth's surface is constantly changing through a variety of processes and forces such as plate tectonics, erosion, deposition, solar influences, climate, and human activity
Develop and communicate an evidence based scientific explanation around one or more factors that change Earth's surface