A star begins its life in cool clouds of dust and gas called a nebula.
Long-lived stars are typically lower in mass, shine less brightly, and have longer lifespans compared to short-lived stars. Short-lived stars tend to be more massive, burn through their fuel more rapidly, and have shorter lifespans before evolving or ending in a supernova explosion.
Stars begin their lives from clouds of gas and dust, known as nebulae, which collapse under gravity to form a protostar. As a protostar grows, nuclear fusion reactions ignite in its core, causing it to shine as a star. The eventual fate of a star depends on its mass; low-mass stars like our Sun will eventually expand into red giants, shed their outer layers, and become white dwarfs, while high-mass stars will undergo supernova explosions and may leave behind neutron stars or black holes.
No. Stars do not start as whit dwarfs. A white dwarf is the remnant of dead star.
Because they begin to run out of fuel
Massive stars, such as blue supergiants and Wolf-Rayet stars, have the shortest lives because they burn through their fuel much faster due to their intense nuclear reactions. These stars can live for only a few million years before ending in a dramatic supernova explosion.
Stars begin their lives as clouds of gas and space dust.
nebulas =-)
nebulas =-)
larger stars have longer lives, because as stars burn they are slowly burning up fuel and begin to cave in on themselves. the larger, the more fuel, the more fuel, the longer lasting.
All-stars begin their lives as a part of a molecular cloud in space. These clouds contain gas and dust that eventually collapse and form stars through the process of nuclear fusion. The intense pressure and heat at the core of the collapsing cloud triggers the fusion of hydrogen atoms into helium, leading to the birth of a new star.
God created stars. Bless
HadirHaedusHaldusHamalHassalehHydraHekaHezeHoedusHomamHyadumHydrobius
Long-lived stars are typically lower in mass, shine less brightly, and have longer lifespans compared to short-lived stars. Short-lived stars tend to be more massive, burn through their fuel more rapidly, and have shorter lifespans before evolving or ending in a supernova explosion.
if u get all 150 stars u get 100 lives and u have to get the freaking stars
Small stars live longer
As a ball of fire
Out Where the Stars Begin - 1938 is rated/received certificates of: USA:Approved (PCA #4094) USA:TV-G (TV rating)