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Space Weather Forecasting
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This is a simplified 5-step guide to creating your own space weather prediction, and includes links to scientific resources you will need to make your own forecast!
What is a space weather forecast? Your job will be to look at the data available at the recommended web links today, and predict whether the Earth will be affected tomorrow or in a few days.
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Strategy: Begin at any one of the Steps below and try to predict what will happen at a future step. For example, start at Step1 and try to predict what will happen at Step 2 or Step 4. Start at Step 2 and predict what will happen at Step 3.
Step 1: Is there any solar activity present? The
basic rule of thumb is that, if there are no sunspots,
or if the sunspots are very small, it is unlikely that
the conditions are present for solar storms that could
trigger bad space weather here at Earth. Visit the National
Solar Observatory or the Big
Bear Solar Observatory links to get the latest image
of the sun, and check for sunspots. Also visit the NOAA
archive of solar data which summarizes the last
30 days of flares, sunspots and sunspot area. Here is
a suggested scale from archived Mees
Observatory images:
Class 0: No spots that you can easily see
Class
1: A few spots but not very large
Class
2: A medium-sized spot, or large group
Class
3: One or more very large spots
Step 2: Has a Coronal Mass Ejection Been launched towards
Earth?
A summary of the latest CME events is presented at NOAA
. You can also visit the SOHO satellite image
archive of CME events. Here is an example of a NOAA
report that summarizes current solar activity:
"SPACE
WEATHER ADVISORY BULLETIN #05- 11
2005 September 14 at 11:30 a.m. MDT (2005 September
14 1730 UTC): NOAA
sunspot Region 808 continues to produce major solar
flare activity as it rotates to the center of the visible
surface of the Sun. On September 13, this sunspot region
produced three solar flares that resulted in strong
radio blackouts. A large Earth-directed coronal mass
ejection (CME) erupted during one of these flares,
and is expected to create a significant geomagnetic
disturbance late today or early on September 15. Because
of the current position of this region on the Sun, further
flare activity has greater potential to impact Earth.
Major flare activity over the next few days may result
in significant geomagnetic and radiation storms. The
threat of significant solar activity from Region 808
will diminish as it rotates to the far side of the Sun
on September 21-22.."
CME
images will show two kinds. Most CMEs look very dramatic
because they come out from the sides of the sun, but
these are directed away from Earth and do not affect
us. CMEs directed towards Earth are called Halo CMEs
because they look like an expanding cloud surrounding
the entire disk of the sun. These are the ones you want
to look for. Because we can see them on the far side
of the sun, only about half of the Halo CMEs are on
our side of the sun and directed wowards Earth. The
second image below also shows that Halo CMEs produce
showers of high-energy particles that cause 'snow' in
the images taken by the SOHO satellite. See the two
pictures below:
 CME
directed away from Earth
Halo CME and particle event 'snow'
Step 3: Has a disturbance been registered by the ACE satellite?
If the sun has been active, and if NOAA reports that
a CME is headed our way, yo ucan get a 1-hour notice
of whether it is about to arrive by looking at data
from the ACE
satellite. The most important data is the strength
and direction of the 'Bz' component of the solar wind
magnetic field shown in the top plot in red. If this
is large and negative, ( like -10 ,-50 ,-35 )the solar
storm will produce a major effects here at Earth. If
it is positive, (like +10, + 15, +25) the effects will
be very minor or perhaps even absent. The data from
ace looks like this:
 ACE
data. Bz at top in red
Step 4: Is there a magnetic storm in progress?
The two best ways to check this are by looking at the
Kp and Dst indices. The Kp index is available at NOAA
and looks like the bar graph below. Every 3 hours, an
estimate is made on a 9-point scale of how disturbed
Earth's magnetic field is. '9' is extremely disturbed,
while '1' to '4' is calm conditions. Anything above
'7' means that a magnetic storm is in progress. A second
line plot shows the Dst index and is provided at Kyoto
Observatory. When yo usee a sharp downward change
in this index, that means a severe magnetic storm is
occurring. Normally, a large Kp value will show up in
the Dst plot as a large downward change by up to 400
nT.
 Kp
graph with a Storm on October 22, 2001
 Dst
plot with a storm on October 28, 2003
Step 5: Have any aurora been sighted?
The best way to check this is to actually live in Alaska
where you can look at the sky and see an aurora! You
can check the NOAA
auroral activity images created by satellites. The
first image shows typical daily activity which you can
rate as 'Mild to Weak' that corresponds to Kp values
of about '4'. The second image shows an active day that
corrresponds to Kp values above 8.
 NOAA
Auroral Activity. Mild-Weak Kp=4
 October
2003 Severe Storm. Kp=9
Additional Resources:
IMAGE
Tracking a solar storm. A PDF file that introduces
more advanced approaches to solar storm tracking, developed
by the IMAGE satellite program. See also their illustrated
guide with more details.
NASA
Student Observation Network. Developed by NASA educators,
this is a comprehensive introduction to solar storm
tracking in which students may network across the world
to make and log their own forecasts using an extensive
collection of satellite and ground-based data from online
sources, as well as student-built instruments.
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