Neutron star
Remember that Supernovas are great contributors to interstellar material that forms new stars. The star which explodes to supernova will leave either a pulsar or a black hole depending on its mass. Part of the supernova will scatter into space.
After a high mass star explodes, the leftover material forms a remnant called a neutron star or a black hole. If the core of the star is less than about 3 times the mass of the Sun, it collapses to form a neutron star. If the core is more massive, it collapses further, causing the gravitational collapse to form a black hole.
Adverb: "A black hole forms when a supermassive star collapses after a supernova explosion."
Elements present in a star just before it forms a supernova would include hydrogen, helium, carbon, oxygen, and iron. The star undergoes nuclear fusion to produce heavier elements in its core, leading to the buildup of iron which triggers the supernova explosion.
Magma is molten material that when cooled forms a solid called igneous rock
The leftover material from a supernova explosion forms either a neutron star or a black hole, depending on the mass of the collapsing core. A neutron star is extremely dense and composed mostly of neutrons, while a black hole is a region of spacetime where gravity is so strong that not even light can escape.
No. Comets are made from the leftover material when a solar system forms.
Remember that Supernovas are great contributors to interstellar material that forms new stars. The star which explodes to supernova will leave either a pulsar or a black hole depending on its mass. Part of the supernova will scatter into space.
It is an adverb phrase, although in forms such as "The period after a supernova is marked by stellar collapse" it seems to be an adjective phrase.
Dangerous. Novas, or supernovas. Tycho Brahe coined the phrase "nova stellarum" when a "new star" appeared in the night sky. We now know that he was observing a supernova, the death throes of a very massive star.
After a high mass star explodes, the leftover material forms a remnant called a neutron star or a black hole. If the core of the star is less than about 3 times the mass of the Sun, it collapses to form a neutron star. If the core is more massive, it collapses further, causing the gravitational collapse to form a black hole.
Adverb: "A black hole forms when a supermassive star collapses after a supernova explosion."
Elements present in a star just before it forms a supernova would include hydrogen, helium, carbon, oxygen, and iron. The star undergoes nuclear fusion to produce heavier elements in its core, leading to the buildup of iron which triggers the supernova explosion.
Any forms of matter contain a lot of potential energy.
The topsoil layer and the organic matter layer are likely to contain humus. Humus is a dark, organic material that forms from the decomposition of plant and animal matter, enriching the soil with nutrients and improving its structure and fertility.
Neutron Star
DNA are the "instructions" for cells which contain all the genetic material. When a cell divides, the DNA inside its nucleus replicates and forms the same DNA strands in the two new cells. Therefore, when cells divide by meiosis to form sex cells, they contain the same codes of DNA as the cell they divided from, giving them hereditary characteristics.