8.1.2 Life Cycle of a Star

    Cards (29)

    • The core of a star is the region where nuclear fusion occurs.
    • Stars form from a large cloud of gas and dust called a nebula.
    • What process sustains a star's luminosity during its main sequence stage?
      Hydrogen fusion
    • Match the evolutionary stages of low-mass and high-mass stars after the main sequence:
      Low-Mass Stars ↔️ Red Giant
      High-Mass Stars ↔️ Supergiant
    • Steps in the formation of a star from a nebula
      1️⃣ A nebula collapses under its own gravitational attraction
      2️⃣ The center heats up, forming a protostar
      3️⃣ Nuclear fusion is triggered in the core
      4️⃣ The star stabilizes into a main-sequence star
    • Match the star stage with its primary process:
      Main sequence ↔️ Fusing hydrogen into helium
      Red giant ↔️ Helium fusion into carbon and oxygen
      Supernova ↔️ Collapse of a high-mass star
    • Lower-mass stars have longer lifespans because they burn their fuel more slowly
    • Supergiants can fuse elements up to iron in their cores.

      True
    • Match the star type with its description:
      White dwarf ↔️ Dense remnant of a low-mass star
      Neutron star ↔️ Extremely dense star formed in a supernova
    • The singularity in a black hole is a point of infinite density
    • What is a star primarily composed of?
      Plasma
    • What is the main process occurring in the core of a star?
      Nuclear fusion
    • Steps in the formation of a star from a nebula:
      1️⃣ Nebula collapses under gravity
      2️⃣ Protostar forms at the center
      3️⃣ Nuclear fusion begins in the core
      4️⃣ Main-sequence star stabilizes
    • Lower-mass stars have shorter main sequence lifespans than higher-mass stars.
      False
    • A high-mass star can end its life as a supernova, leading to a neutron star or a black hole.

      True
    • A star becomes stable as a main-sequence star after nuclear fusion releases vast amounts of energy
    • The duration of the main sequence stage depends on the star's mass.

      True
    • Match the star mass with its evolutionary stages:
      Low-mass star ↔️ Red giant, then white dwarf
      High-mass star ↔️ Supergiant, then supernova
    • Hydrogen fusion releases more energy per reaction than helium fusion.

      True
    • Neutron stars are denser than black holes.
      False
    • The photosphere is the visible outer layer of a star.
      True
    • A protostar is the initial stage in a star's formation.

      True
    • The main sequence lifespan of a star depends on its mass.
    • What is the final form of a low-mass star?
      White dwarf
    • Nuclear fusion in a protostar converts hydrogen into helium.

      True
    • During the main sequence stage, a star is sustained by the energy released from fusing hydrogen into helium
    • Stars are categorized as low-mass if they are up to 8 solar masses.

      True
    • The helium flash in a red giant converts helium into carbon
    • Steps in the formation of a black hole
      1️⃣ A high-mass star undergoes a supernova explosion
      2️⃣ The remaining core collapses under gravity
      3️⃣ A black hole with infinite density is formed
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