A black hole or a neutron star.
The core collapse speed for a supernova can be up to 70,000 km/s, or about 23% of the speed of light. This rapid collapse leads to the core reaching high densities and temperatures, triggering the explosive release of energy that characterizes a supernova event.
Our Sun is not massive enough to end in a supernova explosion. When it nears the end of its life, it will shed its outer layers as a planetary nebula and eventually collapse into a white dwarf. Supernova explosions typically occur in massive stars that have exhausted their nuclear fuel and undergo a catastrophic collapse.
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.
Yes, a red giant star can undergo a supernova explosion at the end of its life cycle. This occurs when the star has exhausted its nuclear fuel and can no longer support itself against gravity, leading to a dramatic collapse and subsequent explosion.
The supernova stage itself lasts only a few days or weeks. Once the star runs out of fuel, the collapse into a neutron star or black hole (depending on the remaining mass) should be quite sudden - whatever it takes for matter to fall toward the center.
There are about 40 to 50 of neutrinos released by the collapse of a supernova. This is known as a massive star.
supernova
A black hole forms when the remnants of a supernova collapse under their own gravity, becoming so dense that not even light can escape its gravitational pull. This creates a region of spacetime exhibiting extreme gravitational effects from which nothing, not even light, can escape.
The core collapse speed for a supernova can be up to 70,000 km/s, or about 23% of the speed of light. This rapid collapse leads to the core reaching high densities and temperatures, triggering the explosive release of energy that characterizes a supernova event.
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.
The collapse of the star's core is the event that marks the beginning of a type II supernova. This collapse leads to the rapid release of energy, causing the outer layers of the star to be expelled in a violent explosion.
Black holes came from old big stars that went supernova as it dies. Supernova causes the star to collapse into a black hole
Supernova.
It takes only milliseconds for a stellar iron core to collapse when it reaches the end of its life cycle. This rapid collapse leads to a supernova explosion.
Antares is a red supergiant and has enough mass to explode as a supernova and then collapse into a black hole.
Our Sun is not massive enough to end in a supernova explosion. When it nears the end of its life, it will shed its outer layers as a planetary nebula and eventually collapse into a white dwarf. Supernova explosions typically occur in massive stars that have exhausted their nuclear fuel and undergo a catastrophic collapse.
You can find Leftovers in Victory Road on Pokemon Platinum. Leftovers can sometimes be held by wild Munchlax which can be found after using Honey on the golden trees you see around Sinnoh.