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Formation of Stars: From Protostars to Supernovae, Lecture notes of Astrophysics

University of the Philippines Visayas (UPV)Astrophysics

A comprehensive overview of the formation of stars, from the initial stages of protostar development to the eventual fate of stars, including supernovae and black holes. It explores the role of the first stars in the chemical enrichment of the universe and the formation of later generations of stars and planets. The document also delves into the classification of stars based on surface temperature and luminosity, and the different stages of a star's life cycle.

Typology: Lecture notes

2023/2024

Available from 01/01/2025

mistymarie
mistymarie 🇵🇭

6 documents

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M
o
d
ule
3 :
F
orm
a
tion of
S
t
a
rs
THE FIRST STARS IN THE UNIVERSE
- the first stars were massive and
luminous that their formation led to
the production and dispersion of
heavier elements, which led to the
formation of the solar system today
- density fluctuation left over from the
big bang could have evolved into the
first stars
-observations of distant quasars
allowed scientists to catch a glimpse
of the final days of the cosmic dark
ages
Quasars (Quasi-stellar radio sources)
- luminous and far celestial objects in
the universe that are detected due
the large electromagnetic radiation
that they emit
- They are thought to be powered by
supermassive black holes at the
centers of galaxies
PROTOGALAXIES
- the star-forming system is much
smaller and less organized than the
modern galaxy
- does not contain significant amounts
of any elements besides hydrogen
and helium.
- protogalaxies merge to form
galaxies and would gather into
galaxy clusters
Jeans mass
- minimum mass that a clump of gas
must have to collapse under its
gravity
FORMATION OF PROTOGALAXIES
- clouds of gas and dust that slowly
aggregate to form more matter
- as they evolve, they will begin to
merge and form larger structures like
the galaxy that we know today
HOW ARE STARS FORMED?
- From a cloud of dust and hydrogen
gas called nebuli
- The life of a star begins as a
protostar.
- Hydrogen molecules in these clouds
begin to react with one another to
form helium gas through the process
called thermonuclear fusion
- With enough mass and hugs amount
of energy the protostar eventually
collapses into its own gravitational
force and forms a hot ball of gas
Protostar
- Hot core formed from the collection
of dust and gas
Accretion
- Growing of protostar by absorbing
more material from its surroundings.
- Results in the increase of
temperature and density.
Hydrogen molecules in these clouds
begin to react with one another to
form Helium gas through the
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THE FIRST STARS IN THE UNIVERSE

  • the first stars were massive and luminous that their formation led to the production and dispersion of heavier elements, which led to the formation of the solar system today
  • density fluctuation left over from the big bang could have evolved into the first stars
  • observations of distant quasars allowed scientists to catch a glimpse of the final days of the cosmic dark ages Quasars (Quasi-stellar radio sources)
  • luminous and far celestial objects in the universe that are detected due the large electromagnetic radiation that they emit
  • They are thought to be powered by supermassive black holes at the centers of galaxies PROTOGALAXIES
  • the star-forming system is much smaller and less organized than the modern galaxy
  • does not contain significant amounts of any elements besides hydrogen and helium.
  • protogalaxies merge to form galaxies and would gather into galaxy clusters Jeans mass
  • minimum mass that a clump of gas must have to collapse under its gravity FORMATION OF PROTOGALAXIES
  • clouds of gas and dust that slowly aggregate to form more matter
  • as they evolve, they will begin to merge and form larger structures like the galaxy that we know today HOW ARE STARS FORMED?
  • From a cloud of dust and hydrogen gas called nebuli
  • The life of a star begins as a protostar.
  • Hydrogen molecules in these clouds begin to react with one another to form helium gas through the process called thermonuclear fusion
  • With enough mass and hugs amount of energy the protostar eventually collapses into its own gravitational force and forms a hot ball of gas Protostar
  • Hot core formed from the collection of dust and gas Accretion
  • Growing of protostar by absorbing more material from its surroundings.
  • Results in the increase of temperature and density. ● Hydrogen molecules in these clouds begin to react with one another to form Helium gas through the

process called Thermonuclear fusion ● With enough mass and huge amount of energy the protostar eventually collapses into its own gravitational force and forms a hot ball of gas. ROLE OF THE FIRST STARS IN THE FORMATION OF LATER STARS AND PLANETS

1. Re-ionization - Emission of ultraviolet radiation, ionizing surrounding neutral hydrogen gas in the universe. 2. Chemical Enrichment - First stars - massive and ended their lives in powerful supernova explosions leading to release of heavy elements in the surrounding gas clouds, chemically enriching the interstellar medium. - This enrichment allowed for the formation of later generations of stars (Population II and I), which could form smaller stars, planets, and complex molecules necessary for **life.

  1. Galactic Evolution**
    • the presence of metals made it possible for subsequent generations of stars to form planets and other structures more easily.

CLASSIFICATION OF STARS

A. Surface temperature B. Luminosity Generation of Stars a. Population 1

  • Sun 2-3% of its mass is metals b. Population 2
  • Metal core - .1% of metals or lower, oldest stars, galactic bulge c. Population 3
  • No heavy elements, stars formed after Big Bang
  • They were gigantic CATEGORIES FOR STARS FORMATION A. MICROPHYSICS
  • deals with how individual stars form B. MACROPHYSICS
  • deals with how systems of stars form, ranging from clusters to galaxies LIFESPAN OF STARS
  • dependent on the amount of hydrogen present, when all of the hydrogens are consumed the star will die... LESS MASSIVE STARS
  • emit their stellar material into space that will leave behind a white dwarf surrounded by a planetary nebula