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Stars

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A star is an enormous ball of gas. Sizes vary ranging from small stars to very massive stars, known as giants or ... Blue is the hottest, and red the coolest. ... – PowerPoint PPT presentation

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Title: Stars


1
?Stars ?
  • ?We Are ALL Made of Stardust!?
  • ?By Ashley Gray?

?
2
?What are Stars? ?
?
  • ? A star is an enormous ball of gas. Sizes vary
    ranging from small stars to very massive stars,
    known as giants or super giants. Our sun is a
    medium sized star.
  • ? A stars color depends on its temperature.
    Blue is the hottest, and red the coolest.
  • ? If a star has more mass, the star dies quicker
    than a star with less mass. You may think that
    because their bigger, they have more energy to
    burn. But they just use their energy a lot
    quicker in order to stay alive.
  • ? Stars are bright because of the atomic
    collisions happening inside a star.

3
?Why do Stars Shine? ?
  • ? Enormous atomic collisions occur in the center
    of stars. These collisions cause atoms inside the
    star to be separated which alters the atomic
    structure. This makes an enormous amount of
    energy, which a star radiates as brightness and
    heat.

?
4
?Creation of the Elements ?
  • ? Nuclear fusion powers stars. It happens when
    several nuclei combines with each other to make a
    larger nuclei, creating a new element. This
    process results in a lot of energy which the star
    radiates into light and heat.

?
5
?Life Cycle of Stars ?
?
6
?Nebula ?
  • ? A nebula is a large cloud of dust, gas, and
    intergalactic space. The gas in a nebula is
    mostly hydrogen.
  • ? Stars are formed in a nebula. The nebula is
    bright from the light radiated by newborn stars.
  • ? Theyre formed by a shell of gas ejected by a
    red giant or super red giant.

?
7
?Red Giant ?
?
  • ? When a star is close to death, it begins to
    expand. This is what we know as a red giant.
  • ? Medium sized stars swell up, and become a red
    giant.
  • ? As a star grows old, their core runs out of
    hydrogen and helium and then cools as it expands.
    They become less bright and turn into a red
    giant.
  • ? After being a red giant, a medium size star
    becomes a planetary nebula. After that a white
    dwarf, then a black dwarf.

8
?Super Red Giant ?
  • ? A red super giant is similar to a red giant,
    but only the massive stars become a super red
    giant. They are bigger, as the stars were before
    they expanded.
  • ? Massive stars become a super red giant close
    to death, before becoming a supernova.
  • ? Super red giants are very large, and only
    stars over 1.5 times the mass of our sun can be
    one.
  • ? After the star is born, it starts to get
    cooler and expands as it ages. It soon becomes a
    super red giant.
  • ? Super red giants become a supernova, then,
    depending on whether they are massive or very
    massive, they turn into a neutron star or a black
    hole.

?
9
?White Dwarf ?
  • ? After a star runs out of nuclear fuel, it
    becomes a white dwarf. White dwarves are stable,
    and radiate any left over heat they have.
  • ? When a star becomes a white dwarf, it is very
    close to its death.
  • ? Medium sized stars become white dwarves.
  • ? Before becoming a white dwarf, a star was a
    red giant.
  • ? A star will become a black dwarf when it
    radiates all of its heat.

?
10
?Black Dwarf ?
  • ? A black dwarf is a cold, dead star. It has no
    more energy left to radiate.
  • ? All medium sized stars will become a black
    dwarf.
  • ? Before becoming a black dwarf, it was a white
    dwarf. When a white dwarf burns all its leftover
    energy, they become black dwarves.
  • ? This is the end of a medium sized stars life
    cycle.

?
11
?Supernova ?
?
  • ? A supernova is a collapsed red giant. The
    electrical forces overcome the gravitational
    forces inside the star, and causes a big, short
    explosion, blowing away all of the stars outer
    layers.
  • ? This is the stage right before the death of a
    massive or very massive star.
  • ? Massive and very massive stars become
    supernovas.
  • ? Before blowing up, a supernova was a red
    giant.
  • ? A supernova will become a neutron star.

12
?Black Hole ?
?
  • ? When the explosion of a supernova contracts,
    it sometimes makes a black hole if the star was
    really massive. A black hole is a dense hole,
    with a strong gravitational pull. Even light, the
    fastest moving thing we know of, cannot escape a
    black hole.
  • ? A black hole is the end of a stars life cycle.
  • ? Really massive stars, 3 times the mass of our
    sun or more, become black holes.
  • ? Before becoming a black hole, the star was
    supernova, which contracted.
  • ? A black hole is the end of a stars life.

13
?Neutron Star ?
  • ? When a massive star explodes, the contraction
    of the star causes a neutron star.
  • ? This is the end of a stars life.
  • ? Only massive stars, about 1.5 to 3 times the
    mass of the sun, can become a neutron star.
  • ? The neutron star was a supernova before the
    star it contracted.
  • ? It is now a dead star, and this is the end of
    the star.

?
14
?Our Sun ?
?
15
?Credits ?
  • ? Zoom Astronomy, http//www.enchantedlearning.co
    m/subjects/astronomy/stars/
  • ? http//imagine.gsfc.nasa.gov/docs/ask_astro/ans
    wers/971016.html

?
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