Star Life Cycles

The mass of a star does not affect its gravitational pull or nuclear fusion.

A larger mass increases gravitational pull, leading to more frequent and forceful collisions of hydrogen gas particles, which enhances nuclear fusion.

A smaller mass increases gravitational pull, leading to more frequent and forceful collisions of hydrogen gas particles, which enhances nuclear fusion.

The mass of a star only affects its temperature, not its gravitational pull or nuclear fusion.

Gravity has no impact on the size or structure of a star.

Gravity pulls gases outward, increasing the size of a star.

Gravity pulls gases inward toward the center of mass, affecting the size and structure of a star.

Gravity only affects the temperature of a star, not its size or structure.

Hotter stars often are more luminous and have longer lifespans.

Hotter stars are often more luminous and have shorter lifespans.

Cooler stars are often more luminous and have shorter lifespans.

Temperature never affects a star's luminosity or lifespan.

More massive stars have longer expected lifespans.

More massive stars have shorter expected lifespans.

A star's mass does not affect its expected lifespan.

Less massive stars have shorter expected lifespans.

Red stars tend to have the shortest expected lifespan, while light blue stars tend to have the longest.

Red stars tend to have the longest expected lifespan, while light blue stars tend to have the shortest.

The color of a star never correlates with its expected lifespan.

All stars, regardless of color, have the same expected lifespan.

Gravitational pull has no role in nuclear fusion.

Gravitational pull disperses hydrogen gas particles, preventing nuclear fusion.

Gravitational pull brings hydrogen gas particles together, increasing collision frequency and force, leading to nuclear fusion.

Gravitational pull only affects the star's temperature, not nuclear fusion.

Stars the size of our sun or smaller have shorter lifespans and are less luminous.

Stars the size of our sun or smaller have longer lifespans and are less luminous.

Stars the size of our sun or smaller have shorter lifespans and are more luminous.

The size of a star relative to our sun does not affect its characteristics or behavior.