The
STARRY
MESSENGER
TEACHER'S
NOTES
Level
2
The
Starry Messenger is based on Attainment Target 4 of the
National Curriculum for Science covering the Earth's place in the Universe with
emphasis on the important historical figures in the story of Astronomy. These notes are intended as a guide to the
scientific content within the play and teachers may wish to undertake
preparatory work. However, we aim to
present the scientific content in such a way that it becomes self-explanatory
so preparation is not essential.
We have approached the
subject matter from an historical angle and as the story unfolds we meet
Galileo, Sir Isaac Newton and Neil Armstrong. With the help of the audience,
our heroine Andrea is caught up in a race through time to save Galileo.
GALILEO
(1564 - 1642)
Galileo was born in Pisa
and attended Pisa University. His
researches into the theory of motion began when he disproved Aristotle's theory
that different weights fall at different speeds. There is a famous story which tells of Galileo dropping various
objects from the Tower of Pisa to see which hit the ground first.
Galileo built his own
telescope and discovered that the moon's surface was not smooth as previously
thought and even managed to calculate the height of the mountains by measuring
the length of their shadows. He also
discovered that Jupiter has four moons.
In 1610 he published his
results in a book called 'The Starry
Messenger' which features in our story.
SIR
ISAAC NEWTON (1642 - 1727)
Newton, born in the same year
Galileo died, was a sickly baby not expected to survive, but by the age of 26
he was professor of Mathematics at Cambridge.
In 1687 he
finished his greatest work, the 'Principia Mathematica' which finally disproved
the Aristotelian view of the solar system.
It was from Galileo's work on falling bodies and Kepler's laws of
planetary motion that he developed his three laws of motion and the general
theory of gravitation as a force of attraction between any two objects.
Newton was elected a
fellow at the Royal Society in 1672 and in the play we see him giving a lecture
there on the stars and planets. He
finished his working life running the Royal Mint and eventually died at the
ripe old age of 85.
Newton had a dog,
Diamond, who we meet in the play. In
fact Diamond was supposed to have destroyed many pages of Newton's notes by
knocking over a candle and setting fire to them.
NEIL ARMSTRONG AND THE LUNAR EXPEDITIONS
In 1960 the USA
decided to send a manned craft to the moon after several missions involving
unmanned spaceships and they called the plan the Apollo project. They developed Saturn V, the rocket launcher
designed to carry Apollo 8 and in December 1968 three astronauts circled the
moon.
But it was not
until 20th July 1969 that Neil Armstrong became the first man on the moon
closely followed by Edward 'Buzz' Aldrin.
A third astronaut remained in the spacecraft whilst Armstrong and Aldrin
performed their now famous space walk.
SCIENTIFIC
CONCEPTS EXPLORED
DAY
LENGTH, YEAR LENGTH
Galileo sets up the orbit
of the Earth using our heroine, Andrea, as the Earth and himself as the
sun. She is sent round the sun for one
complete turn and we discover that it takes the Earth one year to complete an
orbit.
Andrea cannot understand
where day and night come from so Galileo explains. Firstly he sits Andrea in a
chair and stands on one side. Using
Andrea's birthday torch as the sun he asks her which side of her is in
daylight. He then asks her how that
side gets to be in night time. With the
help of the audience Andrea realises that the Earth itself must spin and
Galileo affirms this. He then asks
Andrea to orbit him once more, but this time spinning 365 times as she does
so. She attempts to do this whilst
Galileo sums up the movement of the Earth during one year's orbit.
THE
FORCE OF GRAVITY
Galileo has discovered
that if you drop objects of differing weights from a height they fall at the
same rate. He demonstrates this using
Andrea and the tower of Pisa. A piece
of paper and a stone are dropped from the same height at the same time and they
hit the floor at the same time.
Galileo realises that
this might have some baring on why the planets don't float off into outer space
but stay in their orbits. Unfortunately
he cannot figure out why. It is only when we discover Sir Isaac Newton, sitting
under his apple tree that the true reason for the planets and their path around
the sun becomes clear.
Sir Isaac realises that
between any two objects there is a pulling force, a force of attraction, which
is directly proportional to the size of the object. As we are so small compared to the Earth our pulling force goes
unnoticed but in the solar system the Sun and the planets are much bigger so
the pulling forces involved are noticeable.
The sun is the largest thing in
the solar system so has the biggest pulling force. We demonstrate the force of Gravity exerted by the sun using a piece of elastic to represent the
force. Sir Isaac asks an audience
member to hold the elastic and revolve around him. The helper is held in his/her orbit by the elastic.
THE
SOLAR SYSTEM
Newton uses six members
of the audience to then demonstrate how the solar system works. Each child represents a planet and are stood
in planet order. They are then sent
around the sun and show how the outer planets take much much longer to complete
one orbit. Only the six planets known
of in Newton's day are shown, but we do stress that there are another three to
be discovered and we name them.
Newton
teaches the audience a sentence which helps them to remember the order of the
planets: My Very Eccentric Mother Juggles Saucepans Up Near Pudsey.
This
sentence is used again in the final scene where the audience is asked to repeat
it in support of Galileo's claims.
THE MOON
On
the moon we meet Neil Armstrong. He
tells us that the moon circles the Earth every 29 ˝ days, or one month.
The
moon has no light of its own but is lit by the sun. As it revolves around the Earth it keeps the same face towards
the Earth. Therefore it has one permanent
lit side and one side in constant darkness.
This is why we see a waxing and a waning moon.
Armstrong
explains that we only ever see the lit parts of the moon. When the dark side is facing we see no moon,
or a New Moon. As the moon circles the
Earth more and more of the lit side is visible and we see firstly a crescent
moon, then a quarter moon (We think of this as a half moon) then we see a Gibbous Moon, or a three quarters
moon and finally we see all of the lit side, a Full Moon.
As
the moon appears to increase in size it is said to be waxing and as it
decreases it is said to be waning.
In
the final scene the children are asked to recap what they have learnt along the
way to help Galileo prove his theories to the Judges of Pisa. Galileo is proved
to be right and Andrea returns to her bedroom, a more enlightened person
At the end of the performance the actors
will be happy to take questions.
SHOW REQUIREMENTS
The actors
will be arriving approximately forty minutes prior to the start time in order
to set up and will need to have access to the school hall from then. They bring
the set, lighting and sound equipment with them so only need access to a plug
socket. They’ll need a space
approximately 15’ wide by 10’ deep with the children sitting in front, either
seated or on the floor. The show works
well ‘on the flat’ but if it’s more convenient for them to use your stage,
please let them know on arrival. The
Starry Messenger lasts one hour with a two minute ‘q & a’ session at the
end.