AEA Astronomy Club
Newsletter July 2015
Contents
AEA Astronomy Club News & Calendar p.1
Video(s) & Picture(s) of the Month p. 3
Astronomy News p. 8
General Calendar p.11
Colloquia, lectures, mtgs. p. 11
Observing p. 12
Useful Links p. 14
About the Club p. 15
Club News & Calendar.
Club Calendar
AEA Astronomy Club News & Calendar p.1
Video(s) & Picture(s) of the Month p. 3
Astronomy News p. 8
General Calendar p.11
Colloquia, lectures, mtgs. p. 11
Observing p. 12
Useful Links p. 14
About the Club p. 15
Club News & Calendar.
Club Calendar
Club Meeting Schedule:
2 July
|
AEA Astronomy
Club Meeting
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Pizza Party & Mat Kaplan, Planetary Society Radio
Producer/Host
|
A1/1735
|
6 August
|
AEA Astronomy
Club Meeting
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A DVD from our Library?
In June we learned why the night sky is dark (not trivial)
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A1/1026
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AEA
Astronomy Club meetings are now on 1st Thursdays at 11:45am. For all of (except Aug. 6) 2015, the meeting
room is A1/1735.
Club
News:
Sept. 18 – Save the Date for Mt. Wilson! 2 separate (or combined) activities to choose
from:
1. We have made a
reservation for a half night of
observing on the historic Mt. Wilson 100-inch telescope for Friday, Sept.
18. I believe we have 8 club members
who’ve indicated they’d go, and so need to enlist 10 more to round out the
limit of 18. We will advertise
company-wide on the Inside Aerospace website.
It will be first-come, first-served/waitlisted, so don’t hesitate. We must send in payment at least 4 weeks in
advance, which would be Aug. 21. A
once-in-a-lifetime chance to view through the same telescope that Hubble used
to discover the true nature of galaxies and the expansion of the universe. The cost per member, after club subsidy of
$50 per person, is $100. We need payment
by Aug. 14. Additionally, we will need
to know if you’re interested in a guided tour of Mt. Wilson beforehand (the
club I think will cover the $10/person), and a box dinner (turkey or
vegetarian) at $16.35 – your cost.
2. We also have agreement that either Renny Fields or
someone in his area will be there at the new Aerospace facilities on Mt. Wilson to give us access to them &
a quick tour before the guided Mt. Wilson tour.
If some would like to bring club or personal telescopes, and do a star party rather than observe
through the 100-inch, I believe that will be an option (if not there, then at
least nearby). We’ll see if the
Aerospace telescopes there will be in use for work, or if we might even get to
use one of them after dark. I understand
the 80cm mirror is scheduled for delivery & installation at the end of Aug.
or early Sept.
With our club budget, we have just acquired a Canon EOS 6D DSLR
camera, with 24-105mm zoom lens, for astrophotography (or terrestrial). It came highly recommended by Jason Fields,
for its very low noise, and 20Mpixel capability. We already have a T-adapter for Canon cameras
to use it with our telescopes, such as the Meade 10-inch. Or it can be used alone for wide-angle sky
shots. We also got a wireless remote for
vibrationless shutter release, a tripod, flash, filters, cleaning kit, camera
bag, extra battery & 64 Gb storage. There
is an option to do an after-factory installation of an H-alpha filter for
nebulae.
Mat Kaplan, the Planetary Society Radio Producer and Host
gave a very interesting presentation July 2.
We recorded it on video, and will upload it shortly for your viewing
pleasure. There are various other
presentations that have been recorded and are on our archive page.
From Jim
Edwards:
“The weather has been deplorable for more than 4 months
now. I've been able to do astronomy stuff only one time during this
period, back on June 23. Here are a couple of images I captured [the moon
& M3 globular cluster].”
Astronomy Video(s)
& Picture(s) of the Month
(from
Astronomy Picture of the Day, APOD: http://apod.nasa.gov/apod/archivepix.html)
VIDEO: New Horizons http://apod.nasa.gov/apod/ap150622.html
Video Credit & Copyright: National Space Society
Explanation: In three
weeks, the robotic New Horizons spacecraft will reach Pluto. As the featured video makes clear, though, humanity has been on an
unprecedented epoch of robotic exploration of our Solar System's planets
for the past half century. The video highlights artistic illustrations of Mariner 2 flying by Venus in 1962, Mariner 4 flying past Mars in 1965, Pioneer 10 flying past Jupiter in 1973, Mariner 10 flying past Mercury in 1974, Pioneer 11flying past Saturn in 1979, and Voyager 2 flying past Uranus in 1986 and then Neptune in 1989. Next is a hypothetical sequence
depicting New Horizons flying past Pluto next month. Assuming things
work as planned, dwarf planetPluto will
then become the farthest world yet explored by humans. Of course, these Pluto illustrations are only a guess. How Pluto and its moons will
really look may be a mixture of familiar things, such as craters, and unfamiliar things,
such as …Video Credit & Copyright: National Space Society
VIDEO: Pulsating Aurora over Iceland http://apod.nasa.gov/apod/ap150601.html
Video Credit & Copyright: Stéphane Vetter (Nuits sacrées); Music: Eric Aron
Explanation: Why do some
auroras pulsate? No one is sure. Although this unusual behavior has been known
for a long time, the cause remains an active topic of research. Featured here
is a dramatic video that captured some impressive pulsating auroras in
mid-March over Svínafellsjökull Glacier in Iceland. The 48-second video shown is
not time-lapse. The real-time pulsations are exemplified by sequences where the astrophotographer is visible moving
about in the foreground. A close inspection of the enigmatic flickering sky colors reveals that some structures appear to repeat,
while others do not. The quick rapidity of the pulsations seen here is somewhat
unusual -- more common are aurora with pulsations that last several seconds. Recent research shows that pulsations are more common in
electron-generated aurora, rather than proton aurora, and that
the Earth's local magnetic field may fluctuate in unison.Video Credit & Copyright: Stéphane Vetter (Nuits sacrées); Music: Eric Aron
VIDEO: Fly Over Dwarf Planet Ceres http://apod.nasa.gov/apod/ap150610.html
Video Credit: NASA, JPL-Caltech, UCLA, MPS/DLR/IDA, DLR, ESO
Explanation: What would
it look like to fly over dwarf planet Ceres? Animators from the German Aerospace Center recently took actual images and height data
from NASA's robotic Dawn mission -- currently visiting Ceres -- to generate several fascinating virtual sequences. The featured video begins with a mock orbit around the 950-km wide
space rock, with the crater featuring two of the enigmatic white spots soon rotating into view. The next sequences
take the viewer around the Ceres' north and south poles, and then over a limb of
the dark world highlighting its heavily cratered surface. Here, terrain
height on the asteroid belt's largest
object has been digitally doubled, while an artificial star field has been
added in the background. The Dawn spacecraft will likely remain an unusual artificial moon of Ceres long after its mission concludes.Video Credit: NASA, JPL-Caltech, UCLA, MPS/DLR/IDA, DLR, ESO
VIDEO: Sunspot Group AR 2339 Crosses the Sun http://apod.nasa.gov/apod/ap150629.html
Images Credit: NASA, SDO; Video compilation & Copyright: Stanislav Korotkiy (AstroAlert) & Mikhail Chubarets;
Music: Pas de Deux (Bird Creek)
Explanation: How do
sunspots evolve? Large dark sunspots -- and the active regions
that contain them -- may last for weeks, but all during that time they are
constantly changing. Such variations were particularly apparent a few weeks ago
as the active region AR 2339 came around the limb of the Sun and was tracked
for the next 12 days by NASA's Solar Dynamic Observatory. In the featured time lapse video, some
sunspots drift apart, while others merge. All the while, the dark central umbral regions shift internally and their surrounding lighter
penumbras shimmer and wave. The surrounding Sun appears to flicker as the carpet of yellow granules come and go on the time scale of hours. In general, sunspots are relatively cool regions where the local magnetic field pokes through the Sun's surface and inhibits
heating. Over the past week, an even more active region -- AR 2371 -- has been crossing the Sun and releasing
powerful flares that have resulted in impressive auroras here on Earth.Images Credit: NASA, SDO; Video compilation & Copyright: Stanislav Korotkiy (AstroAlert) & Mikhail Chubarets;
Music: Pas de Deux (Bird Creek)
Into the
Void
Image Credit: NASA, Gemini Project, James McDivitt
Explanation: Fifty years ago, on June
3, 1965, Edward White stepped out of the orbiting Gemini 4 spacecraft to become
the first US astronaut to walk in space. White is
captured in this photo taken by mission commander James McDivit from inside
the capsule as White's spacewalk began over the Pacific Ocean on Gemini 4's third orbit. Planet
Earth, spacecraft, and tether are reflected in White's gold tinted helmet
visor. A gas powered manuevering gun is held in his right hand. Though the gun
ran out of gas after only 3 minutes, he continued to manuever by twisting his
body and pulling on the tether for the remainder of the 23 minute long Extra Vehicular
Activity. White later described his historic spacewalk as the most comfortable part of the mission,
and said the order to end it was the "saddest moment" of his life.Image Credit: NASA, Gemini Project, James McDivitt
1000 Sols
Image Credit: NASA, JPL-Caltech; Mosaic Processing: Marco Di Lorenzo, Kenneth Kremer
Explanation: Shortly
before Mars' June 2015 conjunction, the Curiosity Rover celebrated 1000 sols on the red planet. After its
August 5, 2012 landing, Curiosity's 1000th sol or martian day on the surface
corresponded to planet Earth's calendar date May 31, 2015. Because the line-of-sight to Mars is close to the
Sun near the
conjunction, radio communications are affected and the six-wheeled, car-sized
robotic rover cautiously remains parked at this spot for now. The view looks
back toward the stomping grounds for Curiosity's nearly 10.6 kilometer trek so
far, with the hazy rim of Gale Crater looming in the distance. The mosaicked panorama was constructed with images from navigation
cameras taken on Curiosity's sol 997.Image Credit: NASA, JPL-Caltech; Mosaic Processing: Marco Di Lorenzo, Kenneth Kremer
LightSail A
Image Credit: The Planetary Society
Explanation: Hitching a ride to low Earth orbit, LightSail A accomplished a
challenging test mission, unfurling its 32 square meter mylar solar sail on
June 7. This dramatic image from one of the bread loaf sized spacecraft's
fisheye cameras captures the deployed sail glinting in sunlight. Sail out and visible to Earthbound observers before its
final orbit, LightSail A reentered the atmosphere last weekend. Its
succesful technology demonstration paves the way for the LightSail B spacecraft, scheduled for
launch in April 2016. Once considered the stuff of science fiction, sailing
through space was suggested 400 years ago by astronomer Johannes Kepler who
observed comet tails blown by the solar wind. But modern solar sail designs, like the one tested by LightSail A,
rely on the small but continuous pressure from sunlight itself for thrust.Image Credit: The Planetary Society
Galaxy NGC
7714 After Collision
Image Credit: NASA, ESA; Acknowledgement: A. Gal-Yam (Weizmann Inst.)
Explanation: Is this
galaxy jumping through a giant ring of stars? Probably not. Although the
precise dynamics behind the featured image is yet unclear, what is
clear is that the pictured galaxy, NGC 7714, has been
stretched and distorted by a recent collision with a neighboring galaxy. This
smaller neighbor, NGC 7715, situated
off to the left of the featured frame, is thought to have charged right through NGC 7714.
Observations indicate that the golden ring pictured is composed of millions of older Sun-like stars
that are likely co-moving with the interior bluer stars. In contrast, the
bright center of NGC 7714 appears to be undergoing a burst of new star
formation. NGC 7714 is located about 100 million light years away toward the constellation of the Fish (Pisces). The interactions between these galaxies likely started about 150
million years ago and should continue for several hundred million years more, after
which a single central galaxy may result.Image Credit: NASA, ESA; Acknowledgement: A. Gal-Yam (Weizmann Inst.)
Astronomy
News:
Supernova
hunting with supercomputers
Published: Wednesday, May 20, 2015 - 12:54 in Astronomy
& Space
Related
images
Daniel Kasen, Berkeley Lab/ UC Berkeley
Type Ia supernovae are famous for their consistency. Ironically,
new observations suggest that their origins may not be uniform at all. Using a
"roadmap" of theoretical calculations and supercomputer simulations,
astronomers observed for the first time a flash of light caused by a supernova
slamming into a nearby star, allowing them to determine the stellar system from
which the supernova was born. This finding confirms one of two competing
theories about the birth of Type Ia supernovae. But taken with other
observations, the results imply that there could be two distinct populations of
these objects. The details of these findings will appear May 20 in an advance
online issue of Nature. "By calibrating the
relative brightness of Type Ia supernovae to several percent accuracy,
astronomers were able to use them to discover the acceleration of the Universe.
But if we want to push further and constrain the detailed properties of the
dark energy driving acceleration, we need more accurate measurements. If we
don't know where Type Ia supernovae come from, we can't be totally confident
that our cosmological measurements are correct," says Daniel Kasen, an
Associate Professor of Astronomy and Physics at UC Berkeley, who holds a joint appointment
at the Lawrence Berkeley National Laboratory (Berkeley Lab).
In 2010, Kasen predicted a new
way to test the origins of supernovae. Using theoretical arguments and
simulations run on supercomputers at the Department of Energy's National Energy
Research Scientific Computing Center (NERSC), he showed that if a supernova is
born in a binary star system, the collision of the debris with the companion
star will produce a brief, hot flash of light. The challenge is then to find a
Type Ia event shortly after it ignites, and quickly follow it up with
ultraviolet telescopes. Using an automated supernova-hunting pipeline--the
intermediate Palomar Transient Factory (iPTF), which uses machine-learning
algorithms running on NERSC supercomputers--astronomers did just that. They
found iPTF14atg just hours after it ignited in a nearby galaxy. Follow up
observations with NASA's Swift Space Telescope showed ultraviolet signals
consistent with Kasen's predictions.
"Kasen's paper was very important to our work. Without it,
we wouldn't have known what to look for," says Yi Cao, a graduate student
at Caltech and lead author of the Nature paper. "With the help of NERSC's Edison
supercomputer, the iPTF pipeline can turn up supernova candidates 10-15 minutes
after its initial detection. This is crucial to our work to search for the
ephemeral signal predicted by Kasen."
"We often talk about how
computational science is the third pillar of the scientific method, next to
theory and experimentation, this finding really brings that point home. In this
case, we can see how computational models and tools are driving discovery and
transforming our knowledge about the cosmos," says Peter Nugent, Berkeley
Lab scientist and member of the iPTF collaboration.
Origin Theories for Type Ia
Supernovae
Because the relative brightness
of Type Ia supernovae can be measured so well no matter where they are located
in the Universe, they make excellent distance markers. In fact, they were
instrumental to measuring the accelerating expansion of the Universe in the
1990s--a finding that netted three scientists the 2011 Nobel Prize in Physics,
including one for Berkeley Lab's Saul Perlmutter. Yet, astronomers still do not
fully understand where they come from.
There are currently two competing
origin theories. In both theories, the white dwarf star that eventually becomes
a Type Ia supernova is one of a pair of stars that orbits around a common
center of mass. In the double-degenerate model the stellar companions are both
white dwarfs and the supernova ignites when both stars merge.
In the competing
single-degenerate model a white dwarf star orbits with a Sun-like star or a red
giant star, which is essentially a dying Sun-like star. As these stars orbit,
the white dwarf's gravity pulls, or accretes, material from its stellar
companion. As the white dwarf becomes more massive, the temperature and
pressure in its core increases, eventually initiating a runaway nuclear
reaction, which will end in a dramatic explosion or Type Ia supernova.
In the single-degenerate model,
Kasen predicted that the material ejected from a Type Ia supernova would slam
into its companion star, generating a shockwave that heats the surrounding
material. According to his calculations, the collision should produce emissions
detectable at ultraviolet wavelengths in the hours and days following the
supernova explosion. And, that's exactly what Cao and his team at Caltech saw
in the Swift observations.
The Swift telescope measured a
pulse of ultraviolet radiation that declined initially but then rose as the
supernova brightened. Because such a pulse is short-lived, it can be missed by
surveys that scan the sky less frequently than the iPTF does.
"We have never observed a
white dwarf just before it went supernova, but if you can get data soon after
ignition, it may be possible to infer the nature of the progenitor
system," says Kasen.
After Kasen made his prediction
in 2010, he notes that a lot of people tried to look for the ultraviolet
signature, but this is the first-time that anyone has seen it. "This
discovery is a proof of principal that we can get images of Type Ia supernovae
in their infancy. Now we can move forward and try to acquire a large number of
these 'baby pictures,' which will tell us how the different channels for igniting
stars affect the properties of the supernova," says Kasen.
According to Shrinivas Kulkarni,
Professor of Astronomy and Planetary Science at Caltech and principal
investigator for the iPTF, the discovery "provides direct evidence for the
existence of a companion star in a Type Ia supernova, and demonstrates that at
least some type Ia supernovae originate from the single-degenerate
channel."
Although the data from supernova
iPTF14atg support the single-degenerate model, the double-degenerate model has
not been disproven. In fact, previous data from the iPTF have provided credible
evidence to support that alternative theory. And that means that both theories
actually may be valid, says Caltech Professor of Theoretical Astrophysics Sterl
Phinney. "The news is that it seems that both sets of theoretical models
are right, and there are two very different kinds of Type Ia supernovae."
"It's really exciting to
learn that something that once only existed in your imagination, is actually
out there in the real Universe. Automated surveys like iPTF have revolutionized
the field by catching these events earlier and earlier. It opens up a new
avenue for studying the life and death of stars," says Kasen.
Source: DOE/Lawrence Berkeley National Laboratory
General
Calendar:
Colloquia, Lectures, Seminars, Meetings, Open Houses & Tours:
Colloquia, Lectures, Seminars, Meetings, Open Houses & Tours:
Colloquia: Carnegie (Tues.
4pm), UCLA, Caltech (Wed. 4pm), IPAC (Wed. 12:15pm) & other Pasadena (daily
12-4pm): http://obs.carnegiescience.edu/seminars/
Carnegie
astronomy lectures
– only 4 per year in the Spring www.obs.carnegiescience.edu. Visit www.huntington.org for directions. For more
information about the Carnegie Observatories or this lecture series, please
contact Reed Haynie. This year's
Astronomy Lecture Series will take place at A Noise Within on March 30, April 13, April 27, and May 11. Click here for more information.
2 June
|
AEA Astronomy
Club Meeting
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A DVD from our Library
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A1/1735
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10 July
|
Friday Night 7:30PM SBAS Monthly General Meeting
in the Planetarium at El Camino College (16007 Crenshaw
Bl. In Torrance)
Friday
Night 7:30PM Monthly General Meeting
Topic: TBA
Speaker:
Steven Levin, JPL
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13 July
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LAAS
LAAS General Meeting.
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Griffith
Observatory
Event Horizon Theater 8:00 PM to 10:00 PM |
July
16 & 17 The
von Kármán Lecture Series: 2015
Discovery
at Mars
July 2015 marks the 50th anniversary of Mariner 4, the first
spacecraft to successfully fly by the planet Mars. Scientists were surprised by
what the first images revealed, a theme that has continued through a half
century of exploring the red planet. Join us for an evening to celebrate a half
century of Mars exploration with a screening of The Changing Face of Mars with
introductory remarks by its producer/director/writer.
Speaker:
Mr. Blaine Baggett, Director, Office of Communication and Education, JPL
Mr. Blaine Baggett, Director, Office of Communication and Education, JPL
Locations:
|
Thursday, July 16, 2015, 7pm
The von Kármán Auditorium at JPL 4800 Oak Grove Drive Pasadena, CA › Directions Friday, July 17, 2015, 7pm The Vosloh Forum at Pasadena City College 1570 East Colorado Blvd. Pasadena, CA › Directions |
|
Webcast:
|
We offer two
options to view the live streaming of our webcast on Thursday: › 1) Ustream with real-time web chat to take public questions. › 2) Flash Player with open captioning If you don't have Flash Player, you can download for free here. |
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Observing:
The
following data are from the 2015 Observer’s Handbook, and Sky & Telescope’s
2015 Skygazer’s Almanac & monthly Sky at a Glance.
Current
sun & moon rise/set/phase data for L.A.:
http://www.timeanddate.com/astronomy/usa/los-angeles
Sun,
Moon & Planets for July:
Moon: July 2 full, July 8
last quarter, July 16 new, July 24 1st quarter, July 31 full
Planets:
Jupiter & Venus are visible in the W for
a couple hours after sunset.
Saturn is up until just after midnight. Mars
is hidden in the Sun’s glare all month. Mercury is visible just before sunrise
at until July 13.
Other
Events:
1 July Venus Passes 0.4
Degrees from Jupiter
11 July
|
SBAS
Saturday Night In Town Dark Sky Observing Session at Ridgecrest Middle School– 28915 North Bay Rd. RPV, Weather
Permitting: Please contact Greg Benecke to confirm that the gate will be
opened! http://www.sbastro.net/
|
14 July New Horizons
Pluto Fly-By NASA’s
New Horizons spacecraft is scheduled to arrive at Pluto after a nine and a half
year journey. Launched on January 19, 2006, this will be the first spacecraft
to visit Pluto. New Horizons will give us our first close-up views of the dwarf
planet and its moons. After passing Pluto, the spacecraft will continue on to
the Kuiper Belt to examine some of the other icy bodies at the edge of the
Solar System.
1,8,15,22,29 July
|
LAAS
The Garvey Ranch Observatory is open to the public every
Wednesday evening from 7:30 PM to 10 PM. Go into the dome to use the 8 Inch
Refractor or observe through one of our telescopes on the lawn. Visit our
workshop to learn how you can build your own telescope, grind your own
mirror, or sign up for our free seasonal astronomy classes.
Call 213-673-7355 for further information.
Time: 7:30
PM - 10:00 PM
Location: Garvey
Ranch Obs. , 781 Orange Ave., Monterey Park, CA 91755
|
18 July
|
LAAS
private dark sky night
|
18 July
|
SBAS
out-of-town Dark Sky observing – contact Greg Benecke to coordinate a
location. http://www.sbastro.net/.
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25 July
|
LAAS
Public Star Party: Griffith Observatory Grounds 2-10pm
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29 July Southern
Delta-Aquarids Meteor Shower Peak The Southern Delta Aquariids are a meteor
shower visible from mid-July to mid-August each year with peak activity on July
28 or 29 July. The shower originated from the breakup of what are now the
Marsden and Kracht Sungrazing comets. The Delta Aquariids get their name
because their radiant appears to lie in the constellation Aquarius, near one of
the constellation's brightest stars, Delta Aquarii. The name derives from the
Latin possessive form "Aquarii", whereby the declension
"-i" is replaced by "-ids" (hence Aquariids with two i's).
There are two branches of the Delta Aquariid meteor shower, Southern and
Northern. The Southern Delta Aquariids are considered a strong shower, with an
average meteor observation rate of 15–20 per hour, and a peak zenith hourly
rate of 18.
Internet
Links:
Telescope, Binocular & Accessory Buying
Guides
General
About the
Club
Club Websites: Internal (Aerospace): https://aeropedia.aero.org/aeropedia/index.php/Astronomy_Club It is updated to reflect this newsletter, in addition to a listing of past club mtg. presentations, astronomy news, photos & events from prior newsletters, club equipment, membership & constitution. We have linked some presentation materials from past mtgs. Our club newsletters are also being posted to an external blog, “An Astronomical View” http://astronomicalview.blogspot.com/.
Club Websites: Internal (Aerospace): https://aeropedia.aero.org/aeropedia/index.php/Astronomy_Club It is updated to reflect this newsletter, in addition to a listing of past club mtg. presentations, astronomy news, photos & events from prior newsletters, club equipment, membership & constitution. We have linked some presentation materials from past mtgs. Our club newsletters are also being posted to an external blog, “An Astronomical View” http://astronomicalview.blogspot.com/.
Membership. For information, current dues & application, contact Alan Olson, or see the club website (or Aerolink folder) where a form is also available (go to the membership link/folder & look at the bottom). Benefits will include use of club telescope(s) & library/software, membership in The Astronomical League, discounts on Sky & Telescope magazine and Observer’s Handbook, field trips, great programs, having a say in club activities, acquisitions & elections, etc.
Committee Suggestions & Volunteers. Feel free to contact: Mark Clayson, President & Program Committee Chairman (& acting club VP), TBD Activities Committee Chairman (& club Secretary), or Alan Olson, Resource Committee Chairman (over equipment & library, and club Treasurer).
Mark Clayson,
AEA Astronomy Club President
