Transcript Document
General Relativity
and Grade-9 Astronomy
0) Gravity causes time to slow down.
Everyday Einstein:
The GPS and Relativity
OAPT Conference May 12 – 14
McMaster University – Just $19.99/night!
1) Space is curved. Curved space is gravity.
2) We can`t see it - but we can measure it.
3) Gravity makes light bend.
4) Space is expanding.
PART 1:
How does the sun make the planets orbit?
Masses cause spacetime to curve and the curve
in spacetime tells other masses how to move.
Orbiting objects bend space as they move
through it and should generate gravitational
waves. These waves will radiate energy, so the
objects should spiral into the center – just like
they did with the spacetime fabric.
In 1993 Taylor and Hulse got the
Nobel prize for measuring a binary
pulsar spirally in as predicted.
We live in a 4-dimensional curved space
which we cannot see or experience directly.
We can get a sense of how it works by
consdiering a space with fewer dimensions.
http://www.youtube.com/watch?v=BWyTxCsIXE4
PART 2:
How can we detect the curvature of space?
Newton’s gravity predicts simple orbits like
the one on the left. Einstein’s curved space
predicts the pattern on the right.
Careful measurements have confirmed
Einstein’s predictions every time.
PART 3:
What is the effect of curved space on light?
Mass curves spacetime into gravitational lenses.
The yellow cluster
is 5 billion lightyears away and it
is causing multiple
images of a blue
galaxy that is
twice as far.
Gravitational
lenses are a new
type of telescope.
The universe appears to have a large amount of
dark matter which does not reflect, absorb or
emit light. This means we can’t see it. But, we
can detect it because it will bend light.
http://www.youtube.com/watch?v=7xKFrdzhM2Y
Black holes are regions where gravity is so
strong that light cannot escape so we can’t see
a black hole directly. How can we detect them?
Inside the central white spot is a supermassive
black hole. We can’t see it but there is so much
matter is rushing into it, that a lot of it splashes
out in two jets moving near the speed of light.
More direct evidence is expected soon using
gravitational lensing. The images below simulate
a star field with and without a black hole.
http://jila.colorado.edu/~ajsh/insidebh/lensearth_640x480.gif
PART 4:
How do we know the universe started in a Big Bang?
The galaxies
are moving
away from us
and the more
distant ones
are moving
faster.
There is a simple relationship between velocity
and distance. This suggests that everything was
once gathered in one point that exploded around
13.8 billion years ago – the Big Bang.
As the universe expanded - it cooled. It
is now at -271 degrees Celsius, emitting
microwave radiation in all directions.
Looking at distant objects means that
you are looking back in time. You are
looking at the past. When you look at a
star “Is that star really there?”
There is further evidence for an
expanding universe when you consider
“ Why is it Dark at night?”
The microwave radiation is the farthest back
– in time and space – that we can see.
http://www.amnh.org/news/2009/12/the-known-Universe/