All about Stars

ALL ABOUT STARSALL ABOUT STARS
By Prof. Liwayway Memije-Cruz

The Galaxy contains the
stars, interstellar media clouds
of dust and gases and
remnants. It contains
primarily the star clusters and
interstellar clouds.

The star’s life cycle is
somewhat complex
where it will take
million of years ago
before they could
proceed to another life
stages. All stars
originated from clouds
of dusts and gases
which are commonly
referred as nebulae.

Nuclear Fusion
Stars are giant nuclear reactors.
In the center of stars, atoms are
taken apart by tremendous
atomic collisions that alter the
atomic structure and release an
enormous amount of energy. This
makes stars hot and bright. is an
atomic reaction that fuels stars.
In fusion, many nuclei combine
together to make a larger one.
The result of this process is the
release of a lot of energy
Nuclear Fusion and Nucleosynthesis
s are taken apart by tremendous atomic collisions that alter the atomic structure and release an eno

It is in the process of the nuclear fusion that powers a star for the most of its
life. The star like our sun undergo changes where it first attain the red giant
phase and after which its core collapses into a dense white dwarf that will
soon expel planetary nebula in its outer layers. Star similar to our Sun
gradually grow in size until they reach a red giant phase after which the core
collapses into a dense which dwarf and the outer layers are expelled as a
planetary nebula. The life cycle of a sun like star is illustrated in figure 3.1.
Oftentimes, much larger stars can explode in a supernova as their cores
collapse forming an extremely dense neutron star or the commonly known
black hole. Because of extremely long life span, it is not clear how red dwarf
die but it may manifest gradual death overtime when its outer layers are
expelled out. Moreover, stars have varying luminosity based on the surface
temperature.

The sun includes the
photosphere, chromosphere,
and corona. An extremely hot
outermost layer extending
outward from the
chromosphere several million
mile or kilometers, we will see
that all of the major features of
the sun can be explained by
the nuclear reactions that
make its energy, the magnetic
fields that are caused by the
movements of the gas, and the
immense gravity.

The death of a giant star results to
the formation of a black hole where
the mass is contained in a single
point. The point at the center is
referred to as singularity and the
distance from the singularity
exhibits a very strong gravitational
pull that not even light can pass
through. The distance from
singularity is known as event
horizon. It should be noted that
event of horizon is not a boundary
but it only means that whatever
materials cross it, no way for such
to go back or return. Many people
might ask what is the size of the
black hole? No one could ever
measure its size but one thing is
certain – when we talk about its
size we are referring to the size of
event horizon.

Neutron stars are very dense
and spin very fast and are
typically only 10-15 km in
radius. Because neutron stars
form from burnt-out stars, they
do not glow. The collapses of
the star causes the matter to
be converted into mostly
neutrons, hence the name
neutron star

Neutron Star, Pulsar and Black Hole

Dark matter is a body that
neither emits nor scatters the
light. Most of the matter found
in space is believed to
constitute 80% of it and 20%
energy from its total mass.
The existence of dark matter
was first postulated by Fritz
Zwicky in 1933 to account for
evidence of “missing mass” in
the orbital velocities of
galaxies in clusters. From the
consolidation of investigations
among the experts, it is
hypothesized to be composed of
a new subatomic particle.

All about Stars

More Related Content

What's hot (20)

Viewers also liked (20)

Similar to All about Stars (20)

More from Liwayway Memije-Cruz (20)

Recently uploaded (20)

All about Stars