Life Cycle of Stars Script
Edited by SJ on 29th June 2011.
This first show is based loosely on the Life Cycle
of Stars. It is aimed at students studying GCSE Astronomy. If the kids are
younger than GCSE or below, nicer to start with Planets and Ecliptic and star
signs stuff, detailed in Optional Start, leaving out more complex stuff
on Neutron Stars and Black Holes.
Stellarium commands are in purple/blue
Red notes are optional facts to add, and depend on
age of audience and time.
The talk should take 20-30 mins
depending on how much science/mythology you elaborate on. Suggest that it is nice
to do this show condensed into 20 mins at the end of
We are Astronomers� to give a 40-45minute show.
Optional easing-in start
Do this if audience have no real knowledge of the
stars and planets - best starting point for younger kids, if GCSE probably not
needed can jump straight in at Finding North, but check!
In stellarium start with sky as it is with sun and
ground.
Ask �Can we see any stars in the night sky?�
Expect
responses such as �Only the Sun, no because it�s too bright�-
Ask �so
why can�t we see the other stars in the day?� -
Get response cos our star
the sun, too bright, light bounces off atmosphere, stops us seeing the other
stars. Mention the light pollution in cities bouncing off the inner atmosphere
stopping us seeing stars even at Night!
Speed up time and see sun moving across the sky, ask why the sun is moving?
Explain that sun is not actually moving it�s us
that is moving about on our axis and this makes the sun appear to rise in the
East and set in the West.
Turn the sun off and the planets and ecliptic on.
Explain what the ecliptic is (all the planets in
our solar system are in the same plane so as we look out at them they all seem
to follow the same path on the sky, red curved line in stellarium) Point out the planets they should be
able to see tonight.
Turn on the constellation pictures of all the stars
signs. Explain
that a constellation is a grouping of stars made by the ancient greeks they used them to navigate
and made up stories about different constellations. You will notice that all the
zodiac constellations, ie. Star signs lie along this
line called the ecliptic. These star signs divide the ecliptic up into 12 equal
zones, which is why they are 12 of them. (Leave constellations on but pictures off!)
From here can either start explaining how to find
North and follow show from there , or (Cut out north
and cass and andromeda )
Go straight into Orion and start talking about life
cycle of stars just within Orion.
Finding North
Starting with Big dipper, which is an asterism,
part of the constellation ursa major, which means the
Great Bear. And Ursa
Minor, which means small bear. The lowest too stars in the saucepan point to
North Star.
It looks like a saucepan, with a handle and a place
to put your beans, counting from the 2 stars at the end of the pan, count in a
straight line about 5/6 steps (at a step distance of the gap between those 2
stars). There you will find Polaris aka the North star. Many people think North Star is the
brightest in the sky! It isn�t! it is only important
because it is directly above the North Pole, and stays above the north pole as
the earth spins on its axis causing all the other stars to spin around! Think
about spinning top (from Christmas cracker) the top part, which you spin around
with your fingers, doesn�t appear to move while the sides of the top are
whizzing around. The middle of the top represents the North Pole with the North
Star is right above it. Make sure they realise none of the stars actually move,
and it�s us that are moving?
(speed up time in Stellarium so they can see stars going
around in arcs)
Mentioned Axis of Earth ( if time mention Southern
Hemisphere doesn�t have a star above south pole :( They use Southern Cross and
point to an area which is above/below the South Pole)
Constellations
Make sure
can see both Cass and big dipper
Ask �what is a constellation? �
Explain these are 48 constellations in total.
Turn on constellation pictures press �r� key
Patterns of stars in sky, imagine the ancient Greeks without TVs very
bored so used to join the stars together like a dot to dot, Mention that the Saucepan/Big Dipper is an Asterism
not constellation, as it is part of the great bear.
Circumpolar stars
Explain that the constellations of Cassiopeia and
Andromeda and Ursa Major etc
are Circumpolar constellations and never set.
Cassiopeia
Cass looks like a W or an M for McDonalds, find her
from the Big Dipper by drawing a line through North Star�.Cass
is a queen married to King Cepheus (he is in sky near
by looks like a house drawn by a child). Andromeda is Cass�s daughter.
Andromeda
Locate Andromeda.. go along same line from Polaris, to Cass, and thru to Andromeda..
When in Andromeda constellation, say it is our
nearest spiral galaxy Andromeda (in local group.) Zoom into Andromeda (Search for M31, and zoom in using / in
stellarium) Andromeda
looks a lot like our own galaxy and you can imagine if you were flying in space
outside our Milky Way it would like very similar to Andromeda.
Milky Way
(MW)
Make sure they know MW is our galaxy, talk about
the reason for the name, i.e. the ancient greeks
thought it looked like someone had spilt milk across the sky. Spiral arms are
dust and gas that is orbiting a supermassive black hole which
exists at the centre of all galaxies. We are in Orion arm of our galaxy. (Leads into talking about Orion, then can
miss out Andromeda and Cass story if not much time)
Mention that Andromeda is actually alot bigger than the Milky Way, has many more stars!, make sure they know the Milky Way is our galaxy! Say that
the MW and Andromeda are actually moving toward each other in space, attracted
to each other by gravitational forces due to their large masses, in 4.5 billion
years they will collide!
Can mention other satellite galaxies, LMC and SMC.
Andromeda-Cassiopeia
story
(only
do this story if have time!, best for Year 8 and below.)
If you have seen the recent film
Clash of the Titans you will know this story already, but you might not know
how it relates to the stars�
Put on constellation art, Make sure
all people in story are in sky and point to them with laser
Cass Queen and Mother and daughter Andromeda were
both very beautiful but Cassiopeia committed a 'sin' in the eyes of the Greek
gods, by saying that herself and her daughter were even more beautiful than the
sea nymphs. This made Poseidon, god of the sea really mad so he struck the
water with his Trident and flooded the lands, calling up the sea monster, Cetus, to destroy the kingdom. Cepheus
her husband the King, was scared for his kingdom so he asked an oracle how he
could save the kingdom and she said "you will you have to sacrifice your
daughter to the sea monster to save it"...
So he decided he would sacrifice his
daughter, so Andromeda was chained to a rock with the sea monster sent on her. Luckily
Perseus who was very strong and handsome decided he would save Andromeda so he
flew to her on Pegasus and said, "Hey I'll kill the monster if become my
wife" so of course she did, since he was handsome, and there was the fact
she was just about to face certain death. However, the story doesn�t end here
though, because the people of the kingdom were not happy that Perseus and
Andromeda were together, one person with a problem with this was a former lover
of Andromeda, he set 200 hundred warriors to attack the couple (and her mother
was involved in organising this, also, you can see from this story that
Andromeda parents weren�t really very nice, her mother especially evil).
Luckily Perseus had the head of the Medusa which he used to wear on his belt
(handy!) and anytime you look into the eyes of Medusa she will turn you all to
stone, so he was able to turn them all to stone by angling her head at the 200
warriors.
The Gods flung Cassopeia
into heavens as punishment for causing all this to happen for being so vain.
She sits on her throne the W in the sky and as we learned earlier she
is circumpolar goes from M to W she is being banged on
her head (with her skirts flying up over her with each revolution)...And
Perseus and Andromeda lived happily ever after!
Milky Way to Orion
From Cass through Perseus
to Auriga then Orion, or Search for Orion
The constellations we see depend on
the time of year. Because the aswell as the earth is
spinning around on its axis , which gives us day and
night, the earth is moving along its orbit around the Sun, this gives us
seasons and also means we are looking into different parts of the sky during
the course of the year. The constellation Orion is a Winter Constellation, and
is very famous because of the 3 stars which make up orions belt.
Point out 3 stars and then turn on
constellation art, explain about him being a hunter, shape of his body then
turn off.
Orions belt 3 stars these are young blue stars,
baby stars if you will. Introduce Betelgeuse on the shoulder. Ask which stars
are hottest type of stars or coldest?
Search for M43 Orion Nebula, Talk about stars being
born out of dust and gas. In Orions
sword. Star forming region
nursery.
Tell them about the different colours recap, blue, young star, yellow, teenage
star, red giant star dieing... then finally death
brings...large explosion...BOOM! Our Sun, is considered to be a low mass gently throw outerlayers out in a planetary nebula, burned out core that
remains is a White Dwarf.
High mass stars like Betelgeuse which I will talk
about in a moment, end their lives by , powerful
supernovae explosions which can be as lumionous as an
entire galaxy of stars! These Supernovae throw out particles called neutrinos,
and leave behind a Neutron Star or a Black Hole. (If kids old enough mention that if Star was bigger than 1.4 times the Mass
of sun NS if bigger than 3 times the size of sun BH.)
Heavy elements formed inside star are now enriching
space, recycling,
new stars are born from this. We are all made from the elements
formed in stars :)*****
For example the process of Fusion combines H to He
then to Oxygen then to Carbon, and us Humans are known as Carbon based life
forms.
Betelgeuse has been in news recently because
astronomers think it might blow up or go supernovae very soon (in fact it may
have already blown up). This is red star, which is cooling down because it is
coming to the end of its life. Our star the Sun is in the stable phase of its
life. If we think of the new born stars (protostars)
as mainly made of H where the process of Fusion hasn�t started. The sun has
been Fusing it H into He steadily for 4.5Billion years, this steady phase is
called the main sequence, and it will be another 4.5 billion years before it
runs out of all its H and swells up into Red giant star. When the sun ends its
life it is not big enough to cause a supernova explosion it will just leave a
small star called a white dwarf.
Betelgeuse is a supergiant red star about 500 light
years away - that means it would take the light from Betelgeuse 500 years to
reach us on earth. So when astronomers are looking at B they are actually
seeing the star in the past, as it was 500 years ago. This is why it is
difficult to tell if has blown up.
Now nothing can travel as fast as light, for example the Sun is 8 light
minutes away from us. This means light from the sun takes 8 mins
to reach us. So even if for some reason the sun suddenly stopped emitting light
to us, it would be 8 minutes before we would know about it.
B is so big if you placed it into our solar system
in the place of the sun it would extend out past Mars and the asteroid belt and
into the orbit of Jupiter. The reason why it is so big that it has run out of H
and can�t fuse atoms together. This means the forces on the star are no longer
balanced which is why the outer layers start to swell outwards and eventually
it will go boom! When it does go �boom� even though it is over 500 light years
away it will be very bright, we may even be able to see it for several weeks in
the daytime. However, do not fear if it does go supernovae within our lifetime (could
go bang tomorrow could be the next million years) it won�t affect us, apart
from the firework show.
For kids older than Year 9 can say astronomers call
the young blue stars, O stars these are 33,000 K, hottest, and the coldest, M
stars, red 3,700K (say degrees), compare this with the temperature of the sun 6,000K. Can also explain light year, 600 million miles! (12 zeros which is 240
million times around the circumference of Earth.
Sun
When our sun becomes a red giant star in about 8
billion years from now it will actually swell up so big it will knock us out of
orbit.
Sirius
Line drawn from Orion�s
belt to Sirius
Talking about different stars, leads on to asking
if �Anyone know what the brightest star in the sky is?�
Sirius, which is Greek for �glowing or scorching� is an example of a massive young white star and
also that this is the brightest star in the sky and is on the eye/collar of Orion�s dog.
Ask �why is it so bright?�-
Hopefully they will say because it�s close by, yes
it is only 8.7 light years away which when you compare it with Betelgeuse its
very close, another reason why it is so bright is because it is actually 2
stars in what astronomers call a binary system, the one star is size of sun,
and other is twice size of sun.
Crab
Try not to repeat stuff, which is talked about for Betelgeuse
with the Crab
Go to Taurus, NW of Orion, M1 /zoom in then back
out\, on one of horns of the Bull, Taurus.
Link with B if talked about it, explain that this
is the Crab nebula, star that went supernovae in 1054 and the Chinese saw it
first. Now even though it is 6,500 lyrs away (about a
100 times further than B), it was brightest thing in the sky except for moon,
so this just shows you how bright these explosions are when massive stars die!
It got its name, the Crab, because it has these
extended filaments make it look like a crab? see if you agree in photo later...if doing photos.
The Crab Nebula, has exploded and left a very dense
type of star at its centre, called a Neutron star. These stars are extremely
dense, Ask if they know what dense means?
Give example that a NS the mass of our sun would be
the size of a city like Southampton.
Or another way of thinking of it, one tablespoon of
material from a NS would have the same weight as Everest. Neutron star held up
by neutrons only, everything else has been squashed out by the strong gravitational
forces acting on the star, which act due to its great mass. In order to escape
from the surface of a NS you would have to travel at 1/2 the speed of light,
which is equivalent to about 300Million miles an hour! Pulsars are an example of a spinning neutron
star, which is spinning due to the conservation of the angular momentum of the
original star.
Make sure zoomed \ and can see all of Taurus
Pleiades are the most famous star cluster in the night of sky and the Greeks said this cluster
was like the �fleas on the back of Taurus�
These are bright white/blue stars called then seven
sisters; you may have seen these on the badge of the Car, Subaru. The native
Indians used these as an ancient eye test. If you could see maybe 6-9 by the
naked eye you could become a hunter, but if you can only se about 3 or 4 you
had to be a farmer. This doesn�t apply if you are looking from Soton because of light pollution from the city you will be
lucky to see Taurus, never mind the Pleiades. This cluster actually has hundreds
of stars, which are gravitationally bound to each other.
Black hole M87
Navigate from Crab in Taurus to M87 (back to ursa major/big dipper, thru Bootes,
and then Virgo is there) or just search for M87 and zoom / see elliptical
galaxy
M87 is an example of a black hole. Black holes are
either formed at the end of the life of a star and these small black holes can
exist within our galaxy, the MW and have masses about 10 times that of the sun,
other supermassive black holes like M87 are 1000, million times that of the
sun!! and these are thought to be formed in the
beginning of the Universe when large galaxies were merging together (M87 is at the centre of an elliptical
galaxy Jet goes out 5,000 light years, which is astounding when you think that
about as far as we are from the Crab Nebula.) .
For a collapsed or dead star with a mass of
about 8 suns where there is such extreme gravity between the remaining mass, that even the neutrons can hold up the star, and
these neutrons get squashed out , making a hole in space time. Ask �What speed do you need to travel to
escape from a black hole?�- Hopefully answer is speed of light, 600 million
miles an hour! Go onto explain this is why we can�t see black holes.
Astronomers (as shown in
We are astronomers use the EM Spectrum to look at the light from stars, be it
the gamma rays, X-rays or visible light that we can detect with our eyes) Black holes suck
in all those different types of light, so the only way astronomers know they
are these is by measuring the speed of objects which are orbiting them. Because
if you replaced our own Sun with a black hole of the same mass, the planets etc would all still orbit around in the same way, we wouldn�t
get sucked in, the only time you get sucked in is when you get too close.
Now it might shock you to know
that our Solar System is orbiting in our galaxy around a
Supermassive black hole
These supermassive BH were predicted by Einstein�s
theory of general relativity. They exist at the centre of all galaxies, a million
times that of sun. The BH in our MW is actually 4 million times mass
of sun!
Ask �how do
you think astronomers know the mass? Cos they can�t just weigh it with a scales ?� Using Keplers Third Law,
equation which relates the speed of orbits stars to
the mass of the thing they are orbiting, exactly how we measure the mass of the
Sun.
Astronomer measured high speeds of stars orbting around an object known as Sagitarius
A* which is at the centre of our galaxy the MW. Can zoom into Sagittarius
A* /
Ending thought about
black holes.
Most people think of black holes as monsters but
Astronomers now think they play a large part in the early formation of
galaxies. As we learn more about how galaxies were formed in early universe it
seems that the BH at the centre plays a large part in forming galaxies, remember
that the jet from the centre of the galaxy can reach into other galaxies, these
jets of particles might start star formation to occur in galaxies where it
might otherwise not have occurred. This means that without our blackholes the universe might of not formed galaxies. And
without galaxies there wouldn�t be stars, ithout
stars no solar systems of planets and with out planets, no humans, so blackholes are not something to be afraid of.