When a star explodes, it is referred to as a nova. If the star is large enough, it will create a super nova. And if the star is dense enough, it does not explode, but instead collapses on itself and forms a black hole
nuclear fusion in a massive star that ended its life in a supernova explosion.
A supernova occurs in a star's lifecycle when it runs out of fuel and its core collapses, causing a massive explosion.
Stars cannot fuse iron because it requires more energy than it produces, causing the star to lose its balance between gravity and radiation pressure. This imbalance leads to the star's collapse and eventual supernova explosion.
A neutron star is created when a massive star collapses under its own gravity during a supernova explosion. The intense pressure and heat cause protons and electrons to combine, forming neutrons. This results in a dense core of neutrons, which is the neutron star.
Iron fusion cannot support a star because iron is the most stable element and cannot release energy through fusion reactions. This causes the star to collapse, leading to a supernova explosion.
It will destroy it in a cataclysmic explosion.
Once a star explodes, it's no longer a star. The explosion itself is referred to as a "Super Nova."
an active explosion:)
A supernova.
Super nova
A supernova.
a super novaA supernova.
The force that pulls the material of a nuclear explosion back into a star is gravity. Gravity is the attractive force between objects with mass, and in the case of a star, it is the force that keeps the star's material gravitationally bound together despite the energy released in a nuclear explosion.
A nova or supernova.
The explosion of a dwarf star is called a nova or a supernova, depending on the type of dwarf star and the circumstances of the explosion. Novas are less powerful explosions caused by a white dwarf siphoning material from a companion star, while supernovas are much more energetic explosions that can occur in white dwarfs or other types of stars.
No.
Supernova