Nebulae
Nebulae or Nebula arguably offer the most
breathtaking sights of the universe. The countless pictures of these colourful nebulae fill their viewers with awe. A nebula by its Physics and definition is
so simple and elegant, it’s hard to contemplate its simplicity when placed beside its other counterparts. The word Nebula comes from the
Greek word for cloud and like its name is a giant cloud of dust and gas in
space.
As we have earlier seen, as far as the
baryonic matter goes, about 99.9% of it in our Universe is composed of Hydrogen
and Helium – the two simplest atoms conceivable, with a contribution of 75% and 24%
respectively. These atoms are scattered across the Universe with an average
density of 5 hydrogen atoms per m
3. This density seems too
insignificant for us to even fathom that they can interact or create something.
But, thanks to the Universe, these atoms are not uniformly distributed. Some
spaces accumulate them. These might have wandered and collected due to
their combined gravitational pull. These atomic clusters have densities similar
to that of gases. Essentially forming vast quantities of free-floating interstellar
and intergalactic gases.
Gravity is one of the most fascinating
forces of nature. It’s the weakest of the four forces and yet the predominant
one. Whenever it is brought into the mix, it gives rise to all the structures that make up
the Universe.
The large clouds of hydrogen and helium gas
start concentrating under their own gravity giving rise to large opaque clouds.
With time, these clouds become denser and denser prohibiting even light to
escape. Thus, the basic structure is formed. Now, the question arises how do we see these opaque clouds that do not let light pass through them? Well, let’s see.
All the observable bodies that emit light do
so either by emitting light of their own, or by reflecting light from another
luminous body. When these opaque gas clouds called the Dark nebulae get concentrated enough, they start fusing by a
process called nuclear fusion. This results in the formation of the core of stars and
essentially turns the dark nebulae into a star factory. These stars emit light
making the nebulae visible.
Light emitted by the stars is reflected
back by the surrounding gas, illuminating them in the process. This type of
nebulae is called Reflection nebulae.
These stars emit radiation ranging from infrared, and visible light to ultraviolet. This
light excites the surrounding gas and ionizes the hydrogen and helium atoms.
These atoms when de-ionize produce a photon with a wavelength corresponding to
the difference between the energy states. These nebulae are now essentially
emitting light giving rise to Emission
nebulae. A simple question that may arise is, can a nebula be both – an
emission and a reflection nebula? And the answer is absolutely YES! These nebulas
are what we call Diffuse nebulae.
They do not have any strictly defined shape.
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| Reflection Nebulae |
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| Emission Nebulae |
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| Diffuse Nebulae |
The aforementioned nebulae form one type
of Nebulae amongst many other varieties. Let’s look at others, shall we? The secret to finding
them lies in a very basic question. What happens to these nebulas after
billions of years have passed? Well... the stars begin to die. The further classification
of nebulas depends upon the mass of the dying star.
Stars with intermediate masses ranging from
0.7 Ms – 8.0 Ms (1 Ms = 1.99*1030
Kg) form our next two kinds. A living star maintains a delicate balance between the radiation pressure pushing the mass outwards and the gravitation pull moving the mass inwards.
When a star begins to die, it appears to enlarge due to mass leaving the
surface. A star in its final moments collapses under its own gravity sending
ripples that scatter the mass around it. These intermediate-mass stars do not
have enough mass to produce a supernova. The star dies in a whimper and the
core becomes a white dwarf. This white dwarf then illuminates the surrounding
gas and forms what we call the ejected
nebulae or the protoplanetary
nebulae. These nebulae can be easily identified by their two protruding
lobes. Its unique shape involves Physics that goes beyond this article. We may
come back to it later but for now, let’s keep moving forward.
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| Menzel 3 - The Ant Nebulae |
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| NGC 2346 - The Twin Jet |
Given enough time, these nebulae settle into shape. The dying star’s unique characteristics determine its shape. The outer gas forms an elliptical
or spherical shape giving it the appearance of a planet. Historically, in the
absence of good telescopes, many of these nebulae were identified as planets
giving it its misdirecting name planetary
nebulae. These planetary nebulas are also referred to as stellar nebulae.
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| NGC 7293 - The Helix nebulae |
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| NGC 1501 |
If the mass of the dying star is more significant than 8.0 Ms, the stars die in a giant explosion called a
supernova. The supernovae cause most of the mass to be distributed at once.
The supernova remnants form a ring-like structure at the exterior. At the core
of these supernovae nebulae is a
neutron star or maybe even a black hole depending on the mass of the dead star.
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| SN 1006 |
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| SN 1604 - Kepler's Supernova |
Now let’s take a step back and revisit the
dark nebulae. They are formed by
dense gases which block the light going out or passing through them. They are
only visible when they are in the foreground of a bright nebula - dark highly
concentrated clouds present at the centre of brighter, larger, less concentrated
clouds.
These dark nebulas are the most active region of a nebula. With time,
it clears and reveals a cluster of young stars. This nebulae essentially eats
itself inside out.
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| The Pillars of Creation |
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| The Horsehead Nebulae |
As we near the end of this article, let’s
have a fun exercise for us. At night, look at the sky and try finding the Orion
constellation. Try finding the three central horizontal stars. Now, go
diagonally, and identify the Orion tail. Do you see three stars forming a line?
Well, psst, the middle one is not a star. It’s a nebula! Awe-struck, aren’t
you? I was too. Now, today let us all be a part of it and be united in our
little Cosmo nerds community.
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| The Orion Nebulae (Hint: See the red dot in the picture) |
See you soon.
P.S. These are some of the nebulae painted by yours indeed. Try identifying them
and let’s discuss what’s happening in the comment section below.
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| Nebulae 1 |
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| Nebulae 2 |
P.P.S. This was one of my favourite blogs to write. Hope you had as much fun reading it as I had writing it.
