Transcript Lecture 2

Week 6
The Sun
Stellar Evolution:
Low Mass Stars
White Dwarfs
Reading:
Chapter 9, Sections 1, 4, 5a (10 pages)
Chapter 10, Sections 3, 5 (6 pages)
Chapter 12, Sections 1-3 (10 pages)
The Sun
93,000,000 miles from Earth
The Sun’s Outer Layers
• Photosphere – visible “surface” of the sun
• Chromosphere – layer just above
photosphere. Sort of the “lower” atmosphere.
• Corona – above the chromosphere. Sort of a
hot “upper” atmosphere.
The visible top layer
of the convection
zone is granulated,
with areas of
upwelling material
surrounded by
areas of sinking
material:
The Corona
• The Sun’s hot “upper”
atmosphere
• Extremely hot (~1-2
million K) – opposite of
what you would expect
• Very low density,
highly ionized gas
• Some coronal gas is moving so fast that it escapes
the pull of gravity of the Sun and escapes as the
solar wind.
The Solar Corona
Solar corona can be seen during eclipse if both
photosphere and chromosphere are blocked:
Sun Size Tutorial
The Sun is not static.
Quiet Sun vs. Active Sun
Quiet Sun
Active Sun
Sunspots
Dark “blotches” on the
“surface” (photosphere)
of the Sun
Umbra
Penumbra
Sunspots
Sunspots come and go,
typically in a few days.
Sunspots are linked by pairs
of magnetic field lines:
Sunspots and Magnetic Fields
The rotation of the Sun drags magnetic field
lines around with it, causing kinks
The Sunspot Cycle
The number of
sunspots varies
with time.
11 year cycle
from one max to
the next.
Last max 2000
Coming out of minimum right now (2008)
The Sunspot Cycle
Sunspots “live” closer to the equator later
in the cycle; farther from the equator early
in the cycle.
Sunspot location (latitude) vs. time
The Solar Cycle
The Sun has an 11-year
sunspot cycle, during
which sunspot numbers
rise, fall, and then rise
again:
Sunspots and Magnetic Fields
• Sunspots are caused by the Sun’s magnetic field
• Sunspots occur where the Sun’s magnetic field
breaks through the “surface” of the Sun
• The magnetic field prevent hot, ionized material
from rising
• Dark sunspots result
The Solar Cycle
The Sun’s magnetic field is responsible for
the sunspot cycle.
This 11 year cycle is just half of a 22 year
solar cycle.
The north magnetic pole becomes the south
magnetic pole after 11 years.
After 11 more, it is back to being the north
magnetic pole again.
Prominences and Filaments
Prominences are filaments seen edge on.
Solar Flares
Solar flares – eruptions in the Sun’s
atmosphere that cause energetic particles to
escape from the Sun.
Not the same as the solar wind, which is continuous
Probably related to filaments/prominences. Flares
simply escape instead of falling back down.
Solar Flares
A solar flare is a large
explosion on Sun’s
surface, emitting a
similar amount of
energy to a
prominence, but in
seconds or minutes
rather than days or
weeks:
Solar Flares Movie
X-ray Movie of the Corona
Coronal Mass Ejection
A coronal mass ejection
emits charged particles
that can affect the Earth:
CME
Solar Forecast
3-day Solar-Geophysical Forecast issued Oct 1 at 22:00 UTC
Solar Activity Forecast: Solar activity is expected to
remain at moderate to high levels. Isolated M-class flares
are probable. The is also a chance for a major flare from
Region 9632 (S21W73) as it begins to exit the disk.
Geophysical Activity Forecast: The geomagnetic field
activity is expected to be at unsettled to minor storm
levels for the next two days due to CME effects. Mostly
unsettled conditions are expected on the final day of
forecast. The greater than 10 MeV proton event is
expected to continue through most of the forecast period.
Universe Video
Ch 3. – Sunspots and magnetic fields Skip
to 16:55 Flares
Ch 4 – CMEs – 27:50
Ch 5 – 34:11 11 year cycle 35:40
Ch 6 – start to 38:48
How Do Stars Shine?
Stars shine by nuclear fusion: the process of extracting
energy from the fusion of lighter elements into heavier
elements.
The main fusion process is the conversion of 4
Hydrogen atoms into 1 Helium atom.
However, one Helium atom is slightly less massive than
the 4 Hydrogen atoms combined.
Nuclear Fusion
The “extra” mass is converted into energy
according to Einstein’s famous formula:
2
E = mc
The amount of energy created per Helium atom is
small, but there is a LOT of Hydrogen in stars.
Fusing Hydrogen into Helium requires
temperatures greater than 15 million degrees
Kelvin.
The pressure at the core of Main Sequence stars
causes the core to heat up to over this temperature.
Hydrostatic Equilibrium
Fusion keeps stars from collapsing under
their own weight. Pressure from the
outflowing hot gas balances the pressure
of gravity.
This process is called
hydrostatic equilibrium
TMBG