Hydrogen, helium, and carbon fuel are found in more massive stars. The diameter of more massive stars is bigger. Helium is found in greater abundance in more massive stars. The weight of more massive stars is greater.
It is the mass of the star.
The mass of a star affects the lifespan of the star. The less the mass, the longer life span of the star. More massive stars burn up their fuel more quickly than the smaller stars. As the massive stars begin to burn the fuel and become smaller, the life span increases.
The mass of the star is the most influential factor in determining its rate of evolution. More massive stars have shorter lifespans and evolve more quickly, while lower mass stars evolve more slowly over much longer timescales.
The total mass. That will determine the life cycle of the star, the nature of its death and of the remnants after its death.
The most important factor in determining a star's life cycle is its mass. The mass of a star determines its size, temperature, and how it will evolve over time. More massive stars have shorter lives and end in a violent supernova explosion, while less massive stars like the Sun will eventually become a white dwarf.
It is the mass of the star.
Its mass.
The mass of a star affects the lifespan of the star. The less the mass, the longer life span of the star. More massive stars burn up their fuel more quickly than the smaller stars. As the massive stars begin to burn the fuel and become smaller, the life span increases.
The mass of the star is the most influential factor in determining its rate of evolution. More massive stars have shorter lifespans and evolve more quickly, while lower mass stars evolve more slowly over much longer timescales.
If a star has more mass, there will be more gravitational attraction. The star's material will get closer together, and the star will have more temperature and more pressure.
The main factor is its mass.
The total mass. That will determine the life cycle of the star, the nature of its death and of the remnants after its death.
The total mass. That will determine the life cycle of the star, the nature of its death and of the remnants after its death.
The mass of the star affects the evolution of the star. It helps to determine how long evolution will take and what kinds of changes will happen.
They weigh each star with a scale
The most important factor in determining a star's life cycle is its mass. The mass of a star determines its size, temperature, and how it will evolve over time. More massive stars have shorter lives and end in a violent supernova explosion, while less massive stars like the Sun will eventually become a white dwarf.
It forms a "neutron star".