AEA Astronomy Club
Newsletter April
2018
Contents
AEA Astronomy Club News & Calendar p.1
Video(s) & Picture(s) of the Month p. 2
Astronomy News p. 9
General Calendar p. 12
Colloquia, lectures, mtgs. p. 12
Observing p. 16
Observing p. 16
Useful
Links p. 18
About the Club p. 18
Club News & Calendar.
Club Calendar
About the Club p. 18
Club News & Calendar.
Club Calendar
Club Meeting Schedule:
5 April
|
AEA Astronomy Club Meeting
|
Quarterly
Pizza Party & Jay Landis Presentation
|
(A1/1735)
|
3 May
|
AEA Astronomy Club Meeting
|
Additive
Manufacturing on Mars
|
(A1/2906)
|
AEA
Astronomy Club meetings are now on 1st Thursdays at 11:45 am. For 2018:
Jan. 4 in A1/1029 A/B, Feb. 1 & March 1 in A1/2906 and for the rest
of 2018 (April-Dec), the meeting room is A1/1735.
We have reserved the night of
Sat. Sept. 8 on the Mt. Wilson 100-inch telescope. We do have a full manifest already –
carry-overs from the 2017 night cancelled due to bad weather. But if interested, we can still put you on
the waiting list in case of cancellations, which typically do occur.
We have a speaker for June 7 from JPL – Rob Zellem,
doing research on exoplanetary atmospheres.
“Exoplanets: Finding
Life in the Galaxy”
Rob was born just outside the Philadelphia city limits but
grew up in Hendersonville, TN. He went to Villanova University where he
graduated with his Bachelor of Science in Astronomy and Astrophysics, minoring
in Physics, Mathematics, and Classics, and getting an Honors Concentration. His
love of travel and learning about other cultures brought him to University
College London in England where he got his MSc in Space Science. He then moved
out west to Tucson, AZ, where he received his PhD in Planetary Sciences from
the Lunar and Planetary Laboratory at the University of Arizona. He is
currently a scientist at NASA’s Jet Propulsion Laboratory supporting ground-
and space-based instruments that will measure the atmospheres of extrasolar
planets.
Club
News:
We need volunteers to help with:
·
Populating
our club Sharepoint site with material & links to the club’s Aerowiki
& Aerolink materials
·
Arranging
future club programs
·
Managing
club equipment
Astronomy Video(s)
& Picture(s) of the Month
(from Astronomy
Picture of the Day, APOD: http://apod.nasa.gov/apod/archivepix.html
VIDEO: Rotating Moon
from LRO https://apod.nasa.gov/apod/ap180318.html
Video Credit: LRO, Arizona State U., NASA
Explanation: No one, presently, sees the Moon rotate like this. That's
because the Earth's moon is tidally locked to the Earth, showing us only one side.
Given modern digital technology, however, combined with many detailed images
returned by theLunar Reconnaissance
Orbiter (LRO), a high resolution virtual Moon
rotation movie has been composed. The above time-lapse video starts
with the standard Earth view
of the Moon. Quickly, though, Mare Orientale,
a large crater with a dark center that is difficult to see from the Earth,
rotates into view just below the equator. From an entire lunar
month condensed into 24 seconds, the video clearly shows that
the Earth side of the
Moon contains an abundance of dark
lunar maria, while the lunar far side is dominated by bright lunar
highlands. Currently, over 20
new missions to the Moon are under active development from four
different countries, most of which have expected launch dates either this year
or next.Video Credit: LRO, Arizona State U., NASA
VIDEO: Flying over the Earth at Night II
https://apod.nasa.gov/apod/ap180312.html
Video Credit: NASA, Gateway to Astronaut Photography; Music: The Low Seas (The 126ers)
Explanation: What would it be like to orbit the Earth? The International
Space Station (ISS) does this every 90 minutes, and sometimes
the astronauts on board take
image sequences that are made into videos.
The featured
time-lapse video shows many visual spectacles of the dark Earth below.
First, as the video begins, green
and red auroras are visible on the upper left above white
clouds. Soon city lights come into view, and it becomes
clear you are flying over North America,
eventually passing over Florida.
In the second sequence you fly over Europe and Africa,
eventually passing over the Nile
River. Brief flashes of light are lightning in storms.
Stars far in the distance can be seen rising through the greenish-gold
glow of the Earth's
atmosphere.Video Credit: NASA, Gateway to Astronaut Photography; Music: The Low Seas (The 126ers)
NGC 602 and Beyond
Image Credit: X-ray: Chandra: NASA/CXC/Univ.Potsdam/L.Oskinova et al;
Optical: Hubble: NASA/STScI; Infrared: Spitzer: NASA/JPL-Caltech
Explanation: Near the outskirts of the Small Magellanic Cloud,
a satellite galaxy some 200 thousand light-years distant, lies 5 million
year young star
cluster NGC
602. Surrounded by natal gas and dust, NGC 602 is
featured in this stunning
Hubble image of the region, augmented by images in the X-ray
by Chandra, and
in the infrared by Spitzer. Fantastic ridges
and swept back shapes strongly suggest that energetic radiation and shock waves
from NGC 602's massive young stars have eroded the dusty material and triggered
a progression
of star formation moving away from the cluster's center. At the
estimated distance of the Small Magellanic Cloud, the Picture spans
about 200 light-years, but a tantalizing assortment
of background galaxies are also visible in this sharp
multi-colored view. The background galaxies are
hundreds of millions of light-years or more beyond NGC 602.Image Credit: X-ray: Chandra: NASA/CXC/Univ.Potsdam/L.Oskinova et al;
Optical: Hubble: NASA/STScI; Infrared: Spitzer: NASA/JPL-Caltech
Camera Orion
Image Credit & Copyright: Derrick Lim
Explanation: Do you recognize this constellation? Although it is one of
the most
recognizable star groupings on the sky, Orion's icons don't look quite as
colorful to the eye as they do to a camera. In this 20-image digitally-composed
mosaic, cool red
giant Betelgeuse takes
on a strong orange tint as the brightest star at the upper left. Orion's hot
blue stars are numerous, with supergiant Rigel balancing
Betelgeuse at the lower right, and Bellatrix at
the upper right Lined up in Orion's belt are
three stars all
about 1,500 light-years away,
born from the constellation's well-studied interstellar
clouds. Below Orion's belt a reddish and fuzzy patch that might
also look
familiar -- the stellar nursery known as Orion's Nebula.
Finally, just barely visible to the unaided eye but quite striking here by
camera is Barnard's
Loop -- a huge gaseous emission nebula surrounding Orion's Belt
and Nebula discovered over 100 years ago by the pioneering Orion
photographer E.
E. Barnard.Image Credit & Copyright: Derrick Lim
Explanation: Some consider it the oldest known illustration of the night sky. But what, exactly, does it depict, and why was it made? The Nebra sky disk was found with a metal detector in 1999 by treasure hunters near Nebra, Germany, in the midst of several bronze-age weapons. The ancient artifact spans about 30 centimeters and has been associated with the Unetice culture that inhabited part of Europe around 1600 BC. Reconstructed, the dots are thought to represent stars, with the cluster representing the Pleiades, and the large circle and the crescent representing the Sun and Moon. The purpose of the disk remains unknown -- hypotheses including an astronomical clock, a work of art, and a religious symbol. Valued at about $11 million, some believe that the Nebra sky disk is only one of a pair, with the other disk still out there waiting to be discovered.
The Crab from Space
Image Credit: NASA - X-ray: CXC, Optical: STSCI, Infrared: JPL-Caltech,
Explanation: The Crab Nebula is cataloged as M1, the first object
on Charles
Messier's famous list of things which are not comets. In
fact, the
Crab is now known to be a supernova
remnant, expanding debris from the death explosion of a massive
star. This
intriguing false-color image combines data from space-based
observatories, Chandra, Hubble, and Spitzer, to
explore the debris cloud in X-rays (blue-white), optical (purple), and infrared
(pink) light. One of the most exotic objects known to modern astronomers, the Crab Pulsar,
a neutron star spinning 30 times a second, is the bright spot near picture
center. Like a cosmic
dynamo, this collapsed remnant of the stellar core powers the Crab's
emission across the electromagnetic spectrum. Spanning about 12 light-years,
the Crab Nebula is 6,500 light-years away in the constellation Taurus.Image Credit: NASA - X-ray: CXC, Optical: STSCI, Infrared: JPL-Caltech,
The Complete Galactic Plane: Up and Down
Image Credit & Copyright: Moophz Himself (Maroun Habib)
Explanation: Is it possible to capture the entire plane of our galaxy in
a single image? Yes, but not in one exposure -- and it took some planning to do
it in two. The top part of the featured
image is the night sky above Lebanon,
north of the equator, taken in 2017 June. The image was taken at a time when
the central band of the Milky Way Galaxy passed
directly overhead. The bottom half was similarly captured six months later
in latitude-opposite Chile, south
of Earth's
equator. Each image therefore captured the night sky in exactly
the opposite direction of the other, when fully half the
Galactic plane was visible. The southern half was then inverted -- car and all
-- and digitally appended to
the top half to show the entire central band of our Galaxy,
as a circle, in a single image. Many stars and nebulas are visible, with
the Large
Magellanic Cloud being particularly notable inside the lower
half of the complete galactic circle.Image Credit & Copyright: Moophz Himself (Maroun Habib)
Dual Particle Beams in Herbig-Haro 24
Image Credit: NASA, ESA, Hubble Heritage (STScI/AURA)/Hubble-Europe Collaboration;
Acknowledgment: D. Padgett (NASA's GSFC), T. Megeath (U. Toledo), B. Reipurth (U. Hawaii)
Explanation: This
might look like a double-bladed lightsaber, but these two
cosmic jets actually beam outward from a
newborn star in a galaxy near you. Constructed from Hubble Space
Telescope image data, the stunning scene spans about half a light-year across
Herbig-Haro 24 (HH 24), some 1,300 light-years away in the stellar nurseries of
the Orion B molecular cloud complex. Hidden from direct view, HH 24's
central protostar is surrounded by cold dust and gas flattened into a rotatingaccretion
disk. As material from the disk falls toward the young stellar
object it heats up. Opposing jets are blasted out along
the system's rotation axis. Cutting through the region's interstellar matter,
the narrow, energetic jets produce a series of glowing shock fronts along
their path.Image Credit: NASA, ESA, Hubble Heritage (STScI/AURA)/Hubble-Europe Collaboration;
Acknowledgment: D. Padgett (NASA's GSFC), T. Megeath (U. Toledo), B. Reipurth (U. Hawaii)
Astronomy
News:
(from
https://www.sciencedaily.com
)
Tens of thousands of black holes may exist in Milky Way's center
Date: April 4,
2018
Source: Columbia
University
Summary: Astrophysicists have discovered a
dozen black holes gathered around Sagittarius A* (Sgr A*), the supermassive
black hole in the center of the Milky Way Galaxy. The finding is the first to
support a decades-old prediction, opening up myriad opportunities to better
understand the universe.
Artist's
concept of black hole (stock illustration).
Credit: ©
nasa_gallery / Fotolia
A Columbia University-led team of astrophysicists has discovered
a dozen black holes gathered around Sagittarius A* (Sgr A*), the supermassive
black hole in the center of the Milky Way Galaxy. The finding is the first to
support a decades-old prediction, opening up myriad opportunities to better
understand the universe.
"Everything you'd ever
want to learn about the way big black holes interact with little black holes,
you can learn by studying this distribution," said Columbia Astrophysicist
Chuck Hailey, co-director of the Columbia Astrophysics Lab and lead author on
the study. "The Milky Way is really the only galaxy we have where we can
study how supermassive black holes interact with little ones because we simply
can't see their interactions in other galaxies. In a sense, this is the only
laboratory we have to study this phenomenon."
The study appears in the
April 5 issue of Nature.
For more than two decades,
researchers have searched unsuccessfully for evidence to support a theory that
thousands of black holes surround supermassive black holes (SMBHs) at the
center of large galaxies.
"There are only about
five dozen known black holes in the entire galaxy -- 100,000 light years wide
-- and there are supposed to be 10,000 to 20,000 of these things in a region
just six light years wide that no one has been able to find," Hailey said,
adding that extensive fruitless searches have been made for black holes around
Sgr A*, the closest SMBH to Earth and therefore the easiest to study.
"There hasn't been much credible evidence."
He explained that Sgr A* is
surrounded by a halo of gas and dust that provides the perfect breeding ground
for the birth of massive stars, which live, die and could turn into black holes
there. Additionally, black holes from outside the halo are believed to fall
under the influence of the SMBH as they lose their energy, causing them to be
pulled into the vicinity of the SMBH, where they are held captive by its force.
While most of the trapped
black holes remain isolated, some capture and bind to a passing star, forming a
stellar binary. Researchers believe there is a heavy concentration of these
isolated and mated black holes in the Galactic Center, forming a density cusp
which gets more crowded as distance to the SMBH decreases.
In the past, failed
attempts to find evidence of such a cusp have focused on looking for the bright
burst of X-ray glow that sometimes occurs in black hole binaries
"It's an obvious way
to want to look for black holes," Hailey said, "but the Galactic
Center is so far away from Earth that those bursts are only strong and bright
enough to see about once every 100 to 1,000 years." To detect black hole
binaries then, Hailey and his colleagues realized they would need to look for
the fainter, but steadier X-rays emitted when the binaries are in an inactive
state.
"It would be so easy
if black hole binaries routinely gave off big bursts like neutron star binaries
do, but they don't, so we had to come up with another way to look for
them," Hailey said. "Isolated, unmated black holes are just black --
they don't do anything. So looking for isolated black holes is not a smart way
to find them either. But when black holes mate with a low mass star, the
marriage emits X-ray bursts that are weaker, but consistent and detectable. If
we could find black holes that are coupled with low mass stars and we know what
fraction of black holes will mate with low mass stars, we could scientifically
infer the population of isolated black holes out there."
Hailey and colleagues
turned to archival data from the Chandra X-ray Observatory to test their
technique. They searched for X-ray signatures of black hole-low mass binaries in
their inactive state and were able to find 12 within three light years, of Sgr
A*. The researchers then analyzed the properties and spatial distribution of
the identified binary systems and extrapolated from their observations that
there must be anywhere from 300 to 500 black hole-low mass binaries and about
10,000 isolated black holes in the area surrounding Sgr A*.
"This finding confirms
a major theory and the implications are many," Hailey said. "It is
going to significantly advance gravitational wave research because knowing the
number of black holes in the center of a typical galaxy can help in better
predicting how many gravitational wave events may be associated with them. All
the information astrophysicists need is at the center of the galaxy."
Hailey's co-authors on the
paper include: Kaya Mori, Michael E. Berkowitz, and Benjamin J. Hord, all of
Columbia University; Franz E. Bauer, of the Instituto de AstrofÃsica, Facultad
de FÃsica, Pontificia, Universidad Católica de Chile, Millennium Institute of
Astrophysics, Vicuña Mackenna, and the Space Science Institute; and Jaesub
Hong, of Harvard-Smithsonian Center for Astrophysics.
Story Source:
Materials
provided by Columbia University. Note: Content may be edited for style and
length.
Journal Reference:
1. Charles J.
Hailey, Kaya Mori, Franz E. Bauer, Michael E. Berkowitz, Jaesub Hong, Benjamin
J. Hord. A density
cusp of quiescent X-ray binaries in the central parsec of the Galaxy. Nature, 2018; 556 (7699): 70
DOI: 10.1038/nature25029
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. . Click here for more information.
Monday evenings:
April 9th, April 23rd, May 7th and May 21st.
AT THE HUNTINGTON LIBRARY AND BOTANICAL GARDENS
1151 Oxford Road, San Marino
All Lectures are in Rothenberg Auditorium. Directions can be found here.
1151 Oxford Road, San Marino
All Lectures are in Rothenberg Auditorium. Directions can be found here.
The
lectures are free. Because seating is limited, however, reservations are
required for each lecture through Eventbrite. Additionally, the lectures will
be streamed live through Livestream and simultanously on our Facebook
CarnegieAstro page.
Doors
open at 6:45 p.m. Each Lecture will be preceded by a brief musical performance
by students from The Colburn School starting at 7:00 p.m. Lectures start
at 7:30 p.m. Light refreshments will be available.
Image:
ESA/Hubble & NASA / Judy Schmidt
Monday,
April 9th 2018
All tickets have
now been claimed. You can watch for free on Livestream or
through our Facebook page.
Sharing
the Wonders of the Light and Dark Universe
Dr. Marja Seidel
Postdoctoral Research Associate, Carnegie Observatories
Dr. Marja Seidel
Postdoctoral Research Associate, Carnegie Observatories
What is the Universe made of? We can peer millions
of years into the past in the night sky, yet we barely understand just 5 percent—the
“regular” matter that we can see. In the standard cosmological model, a quarter
of the remaining 95 percent is dark matter. Dr. Seidel will discuss her quest
to understand dark matter, and her experiences bringing astronomy education to
some of the most remote and under-served locations on Earth.
Image: NASA /
JPL-Caltech
Monday,
April 23rd 2018
You
Can't Make a Solar System Without Breaking a Few Asteroids: The Tale of
Asteroid Families
Dr. Joseph Masiero
Scientist & NEOWISE Deputy-PI
NASA Jet Propulsion Lab
Dr. Joseph Masiero
Scientist & NEOWISE Deputy-PI
NASA Jet Propulsion Lab
The
formation of our Solar System was a chaotic collapse of gas and dust in to the
Sun, planets, asteroids, and comets we have today, punctuated by the
catastrophic collisions between these forming bodies. Dr. Masiero will discuss
how the asteroid families in the belt today are the last remnants of these
massive collisions, and give us a window into the processes that shaped our
Solar System.
Image: SDSS /
David Kirby
Monday,
May 7th 2018
Dark
Energy and Cosmic Sound
Dr. Daniel Eisenstein
Professor of Astronomy, Harvard University
Director, Sloan Digital Sky Survey III
Dr. Daniel Eisenstein
Professor of Astronomy, Harvard University
Director, Sloan Digital Sky Survey III
Sound
waves propagating through the Universe only 400,000 years after the Big Bang
now offer some of our most-precise measures of the composiiton and history of
the Universe. In the last decade, we have detected the fossil imprint of these
sound waves using maps of the distribution of galaxies from the Sloan Digital
Sky Survey. Dr. Eisenstein will describe these waves and the ambitious
experiments that use them to extend our cosmological reach.
Image: Carnegie Institution for Science/ Robin Dienel
Monday,
May 12st 2018
Astronomical Alchemy: The Origin of the Elements
Dr. Maria Drout
Hubble and Carnegie-Dunlap Fellow,
Carnegie Institution for Science
Hubble and Carnegie-Dunlap Fellow,
Carnegie Institution for Science
As
Carl Sagan once said, "We are all made of star stuff." However, each
element has its own astronomical origins story. Elements are created everywhere
from the centers of stars, to supernovae explosions, to the Big Bang itself.
Dr. Drout will take us on a journey through the perioidic table, highlighting
how our recent discovery of a 'kilonova' associated with the cataclysmic merger
of two neutron stars has filled in one of the final pieces of the elemental
puzzle—the
origin of many of the heaviest elements in the universe.
9 April
|
LAAS General Mtg. 7:30pm Griffith Observatory
|
The
von Kármán Lecture Series: 2018
How
Will Earth's Ecosystems Survive Under a Changing Climate?
April 12
& 13
One of the largest uncertainties in projections of
future climate change is how do terrestrial ecosystems (communities of land
organisms and their environments) contribute to or help counteract the rise in
atmospheric carbon dioxide. This is because terrestrial ecosystems can both
absorb carbon (i.e., photosynthesis) and emit it (i.e., respiration,
decomposition, combustion). Whether they absorb or emit carbon depends on a
variety of factors, such as temperatures, moisture, nutrients, etc.
At NASA's Jet Propulsion Laboratory (JPL), we are
using satellite remote sensing and sophisticated modeling to understand how
Earth's carbon, water and nutrient cycles are linked and their impacts on the
Earth system as a whole. In this talk, Dr. Fisher will give an overview of the
latest remote sensing datasets and model developments from JPL, and discuss new
insights into the behavior and understanding of terrestrial ecosystems in a
changing climate.
Speaker:
Dr. Josh Fisher - JPL Scientist
Dr. Josh Fisher - JPL Scientist
Location:
Thursday, April 12, 2018, 7pm
The von Kármán Auditorium at JPL
4800 Oak Grove Drive
Pasadena, CA
› Directions
Friday, April 13, 2018, 7pm
The Vosloh Forum at Pasadena City College
1570 East Colorado Blvd.
Pasadena, CA
› Directions
Thursday, April 12, 2018, 7pm
The von Kármán Auditorium at JPL
4800 Oak Grove Drive
Pasadena, CA
› Directions
Friday, April 13, 2018, 7pm
The Vosloh Forum at Pasadena City College
1570 East Colorado Blvd.
Pasadena, CA
› Directions
3 May
|
AEA Astronomy Club Meeting
|
Additive
Manufacturing on Mars
|
(A1/2906)
|
Observing:
The
following data are from the 2018 Observer’s Handbook, and Sky & Telescope’s
2018 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 April:
Moon: April 8 last quarter,
April 16 new, April 22 1st quarter, April 30 Full,
Planets:
Venus
visible at dusk. Mars visible at dawn. Mercury hidden in Sun’s glow all month. Saturn
rises near midnight, visible until sunrise. Jupiter rises mid-evening, visible until sunrise.
Other
Events:
2 April Mars 1.3deg S
of Saturn
4,11,18,25 April
|
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
|
?
|
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 April
|
LAAS Private dark sky Star Party
|
?
|
SBAS
out-of-town Dark Sky observing – contact Greg Benecke to coordinate a
location. http://www.sbastro.net/.
|
21 April
|
LAAS Public Star Party: Griffith Observatory Grounds
2-10pm
|
29
April Mercury greatest elongation W (27deg)
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