Contents
AEA Astronomy Club News & Calendar p.1
Video(s) & Picture(s) of the Month p. 1
Astronomy News p. 6
General Calendar p. 12
Colloquia, lectures, mtgs. p. 12
Observing p. 16
Observing p. 16
Useful
Links p. 17
About the Club p. 18
Club News & Calendar.
Club Calendar
About the Club p. 18
Club News & Calendar.
Club Calendar
Club Meeting Schedule:
-- note the change of date in July due to July 4 holiday
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6 June
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AEA Astronomy Club Meeting
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Great Courses Astronomy Lecture
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(A1/1735)
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11 July
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AEA Astronomy Club Meeting
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Quarterly Pizza Party & TBD Presentation
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(A1/1735)
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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.
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 & library
Astronomy Video(s)
& Picture(s) of the Month
(generally from
Astronomy Picture of the Day, APOD: http://apod.nasa.gov/apod/archivepix.html)
VIDEO: Planets of the Solar System: Tilts and Spins https://apod.nasa.gov/apod/ap190520.html
Video Credit: NASA, Animation: James O'Donoghue (JAXA)
Explanation: How does your favorite planet spin? Does
it spin rapidly around a nearly vertical axis, or horizontally, or backwards?
The featured
video animates NASA images
of all
eight planets in our
Solar System to show them spinning side-by-sidefor
an easy comparison. In the time-lapse video,
a day on Earth -- one Earth rotation -- takes just a few seconds. Jupiter rotates
the fastest, while Venus spins
not only the slowest (can you see it?), but backwards. The inner rocky planets,
across the top, most certainly underwent dramatic
spin-altering collisions during the early days of the Solar
System. The reasons why planets
spin and tilt as they do remains a topic of research with
much insight gained from modern computer
modeling and the recent discovery and analysis of hundreds
of exoplanets:
planets orbiting
other stars.Video Credit: NASA, Animation: James O'Donoghue (JAXA)
VIDEO: A Solar Prominence Eruption from SDO https://apod.nasa.gov/apod/ap190526.html
Image Credit & Copyright: NASA/Goddard/SDO AIA Team
Explanation: One of the most spectacular solar sights
is an erupting prominence. In 2011, NASA's Sun-orbiting Solar
Dynamic Observatory spacecraft imaged an impressively large
prominence erupting from the surface. The dramatic explosion was
captured in ultraviolet light in the featured
time lapse video covering 90 minutes, where a new
frame was taken every 24 seconds. The scale of the prominence
is huge -- the entire Earth would
easily fit under the flowing curtain of
hot gas. A solar
prominence is channeled and sometimes held above the Sun's
surface by the Sun's magnetic field.
A quiescent prominence typically lasts about a month, and may erupt in a Coronal Mass Ejection (CME) expelling hot gas into
the Solar
System. The energy mechanism that creates a solar prominence is
still a topic of research.
After our Sun passes the current Solar Minimum, solar activity like eruptive prominences are
expected to become more common over the next few years.Image Credit & Copyright: NASA/Goddard/SDO AIA Team
Boulders on Bennu
Image Credit: NASA, Goddard Space Flight Center, University of Arizona
Explanation: An abundance of boulders litters the
surface asteroid
101955 Bennu in this dramatic close-up from the OSIRIS-REx
spacecraft. Taken on March 28 from a distance of just 3.4 kilometers (2.1
miles) the field of view is about 50 meters across while the light colored boulder
at top right is 4.8 meters tall. Likely a loose conglomerate rubble pile
asteroid, Bennu
itself spans less than 500 meters. That's about the height of
the Empire State Building. Mapping the near Earth asteroid
since the spacecraft's arrival in December of 2018, the OSIRIS-REx mission plans
a TAG (Touch-and-Go) maneuver for July 2020 to sample Bennu's rugged surface,
returning the sample to planet Earth in September 2023. Citizen scientists have
been invited to help choose
the sample collection site. Image Credit: NASA, Goddard Space Flight Center, University of Arizona
Atlas, Daphnis, and Pan
Image Credit: Cassini Imaging Team, SSI, JPL, ESA, NASA
Explanation: Atlas, Daphnis,
and Pan are
small, inner, ring moons of Saturn. They are shown at the same scale in this
montage of images by the Cassini spacecraft that made its grand
final orbit of the ringed planet in September 2017. In fact,
Daphnis was discovered in Cassini images from 2005. Atlas and Pan were first
sighted in images from the Voyager 1 and 2 spacecraft. Flying saucer-shaped
Atlas orbits near the outer edge of Saturn's bright A Ring while Daphnis
orbits inside
the A Ring's narrow Keeler Gap and Pan within the
A Ring's larger Encke Gap. The curious
equatorial ridges of the small ring moons could be built up by
the accumulation of ring material over time. Even diminutive Daphnis makes waves in
the ring material as it glides along the edge of the Keeler Gap.Image Credit: Cassini Imaging Team, SSI, JPL, ESA, NASA
RS Puppis
Image Credit & Copyright: Image Data: NASA, ESA, Hubble Legacy Archive;
Processing & Copyright: Rogelio Bernal Andreo (DeepSkyColors.com)
Explanation: Pulsating RS Puppis,
the brightest star in
the image center, is some ten times more massive than our Sun and on
average 15,000 times more luminous. In fact, RS Pup is a Cepheid variable star,
a class of stars whose brightness is
used to estimate distances to nearby galaxies as one of the first steps in
establishing the cosmic
distance scale. As RS Pup pulsates over
a period of about 40 days, its regular changes in brightness are also seen along its
surrounding nebula delayed in time, effectively a light echo.
Using measurements of the time delay and angular size of the nebula, the known speed
of light allows astronomers to geometrically determine the
distance to RS
Pup to be 6,500 light-years, with a remarkably small error of
plus or minus 90 light-years.
An impressive achievement for stellar astronomy, the echo-measured distance
also more accurately establishes the true brightness of RS
Pup, and by extension other Cepheid stars, improving the knowledge
of distances to galaxies beyond the Milky Way.Image Credit & Copyright: Image Data: NASA, ESA, Hubble Legacy Archive;
Processing & Copyright: Rogelio Bernal Andreo (DeepSkyColors.com)
Milky Way, Launch, and Landing
Image Credit & Copyright: Devin Boggs
Image Credit & Copyright: Devin Boggs
Explanation: The Milky Way doesn't look quite this colorful and bright to the
eye, but a rocket launch does. So a separate deep exposure with a sensitive
digital camera was used in this composite skyscape to bring out our galaxy's
central crowded starfields and cosmic dust clouds. In the scene from Merritt
Island National Wildlife Refuge, a nine minute long exposure begun about 20
minutes after the Miky Way image recorded a rocket launch and landing. The
Falcon 9 rocket, named for the Millennium Falcon of Star Wars fame,
appropriately launched a Dragon
resupply ship to the International Space Station in the early morning
hours of May the 4th. The plume and flare at the peak of the launch arc mark
the rocket's first stage boost back burn. Two shorter diagonal streaks are the
rocket engines bringing the Falcon 9 stage back to an offshore landing on
autonomous drone ship Of
course I Still Love You.
Manicouagan Impact Crater from Space
Image Credit: NASA, International Space Station Expedition 59
Image Credit: NASA, International Space Station Expedition 59
Explanation: Orbiting 400 kilometers above Quebec, Canada, planet Earth, the
International Space Station Expedition
59 crew captured this snapshot of the broad St. Lawrence River and
curiously circular Lake Manicouagan on April 11. Right of center, the
ring-shaped lake is a modern reservoir within
the eroded remnant of an ancient 100 kilometer diameter impact crater. The
ancient crater is very conspicuous
from orbit, a visible reminder that Earth is vulnerable to rocks from space. Over 200
million years old, the Manicouagan crater was likely caused by the impact of a
rocky body about 5 kilometers in diameter. Currently, there is no known
asteroid with a significant probability of impacting Earth in the next
century. But a fictional scenario to help practice for an asteroid impact is on
going at the 2019 IAA Planetary
Defense Conference.
Astronomy
News:
The accretion disk around our galaxy’s black hole has been
spotted at last
The
finding confirms that gases are orbiting the Milky Way’s gravitational behemoth
BY
1:02PM, JUNE 5, 2019
ORGANIZED
CHAOS The black hole in the center of the Milky Way has a chaotic
entourage of stars and gas, shown here in X-ray light. But new observations
with the ALMA telescope array show a relatively neat disk of glowing gas
rotating around the black hole.
F. BAGANOFF ET AL, MIT, CXC/NASA
Some
supermassive black holes announce their presence with screaming hot disks of
orbiting gases. But the behemoth at the center of the Milky Way has been shy
and demure. Now, astronomers have finally spotted the black hole’s
faintly glowing
accretion disk of infalling material, long suspected but never
before seen.“I was very surprised that we actually saw it,” says astrophysicist Elena Murchikova at the Institute for Advanced Study in Princeton, N.J. The disk was observed using the Atacama Large Millimeter/submillimeter Array, or ALMA, in northern Chile, the researchers report in the June 6 Nature.
The Milky Way’s supermassive black hole, named Sagittarius A*, is a behemoth at 4 million solar masses. But while some black holes gobble the gas and dust around them, Sgr A* picks daintily. Such “underfed” black holes “don’t have enough food supply” for their surrounding gases to glow brightly, Murchikova says.
LIKE A RECORD This image made from ALMA data shows that some of the
gas orbiting the Milky Way’s black hole is moving toward Earth (colored blue),
and some is moving away (red). That finding means that the disk is spinning.
The plus sign indicates the position of the black hole.
E.M. MURCHIKOVA, S. DAGNELLO, ALMA,
ESO, NAOJ, NRAO, AUI, NSF
The disk’s diminished glow helps explain why scientists with the
Event Horizon Telescope were able to capture a picture of the central
black holein the more distant galaxy M87, but not yet Sgr A* (SN: 4/27/19, p. 6).
ALMA measured the cooler gases by observing particles of light in a particular wavelength. Those photons are emitted when electrons and protons in the gases combine to form hydrogen atoms. When Murchikova and colleagues looked at the photon distribution around the black hole, they saw an oblong disk with a gap in the middle where the black hole sits.
On one side of the disk, the light wavelength was stretched, or redshifted. On the other side, the light was squished, or blueshifted. That finding means that one side of the disk is moving toward Earth, and the other is moving away — a clear sign that the disk is rotating.
“I never thought I would actually be able to see such an organized rotation,” Murchikova says.
The team also estimated the disk’s mass — between 0.00001 and 0.0001 times the mass of the sun, depending on how thick the disk might be. And the researchers estimated how much material is falling into the black hole, which they say is about 2.7x10-10 solar masses per year, or roughly about half the mass of the dwarf planet Ceres.
“I think it’s very exciting,” says astrophysicist Anna Ciurlo of UCLA, who was not involved in the new work. Her team has used the Keck telescope in Hawaii to look for signs of the disk in infrared wavelengths, but found nothing.
If the disk’s activity can be picked up by ALMA, but not Keck, that “makes us think there’s some more peculiar process going on that is not totally understood yet,” Ciurlo says. More observations with ALMA and with the Event Horizon Telescope could help resolve the mystery.
Citations
E.
Murchikova et al. A cool accretion disk
around the Galactic Centre black hole. Nature. Vol. 570, June
6, 2019, p. 83. doi:10.1038/s41586-019-1242-z.
It’s time to start taking the search for E.T. seriously,
astronomers say
Some
scientists are pushing for NASA to make looking for alien technology an
official goal
BY
6:00AM, JANUARY 28, 2019
WE’RE
LISTENING A radio telescope in Green Bank, W.Va., was the first to
listen for signals from intelligent aliens in 1960. Now scientists are using
another instrument, the Green Bank Telescope (shown), to search for
extraterrestrial intelligence.
JOHN M. CHASE/SHUTTERSTOCK
Magazine issue: Vol. 195, No. 6, March 30, 2019, p. 4
Astronomer Jason Wright is determined to see that happen. At a meeting in Seattle of the American Astronomical Society in January, Wright convened “a little ragtag group in a tiny room” to plot a course for putting the scientific field, known as SETI, on NASA’s agenda.
The group is writing a series of papers arguing that scientists should be searching the universe for “technosignatures” — any sign of alien technology, from radio signals to waste heat. The hope is that those papers will go into a report to Congress at the end of 2020 detailing the astronomical
community’s priorities. That report, Astro 2020: Decadal Survey on Astronomy and Astrophysics, will determine which telescopes fly and which studies receive federal funding through the next decade.
“The stakes are high,” says Wright, of Penn State University. “If the decadal survey says, ‘SETI is a national science priority, and NSF and NASA need to fund it,’ they will do it.”
SETI searches date back to 1960, when astronomer Frank Drake used a radio telescope in Green Bank, W.Va., to listen for signals from an intelligent civilization (SN Online: 11/1/09). But NASA didn’t start a formal SETI program until 1992, only to see it canceled within a year by a skeptical Congress.
Private organizations picked up the baton, including the SETI Institute, founded in Mountain View, Calif., in 1985 by astronomer Jill Tarter — the inspiration for Jodie Foster’s character in the movie Contact (SN Online: 5/29/12). Then in 2015, Russian billionaires Yuri and Julia Milner launched the Breakthrough Initiatives to join the hunt for E.T. But the search for technosignatures still hasn’t become a more serious, self-sustaining scientific discipline, Wright says.
“If NASA were to declare technosignatures a scientific priority, then we would be able to apply for money to work on it. We would be able to train students to do it,” Wright says. “Then we could catch up” to more mature fields of astronomy, he says.
Wright himself is a relative newcomer to SETI, entering the field in 2014 with a study on searching for heat from alien technology. He was also one of a group to suggest that the oddly flickering “Tabby’s star” could be surrounded by an alien megastructure — and then to debunk that idea with more data (SN: 9/30/17, p. 11).
THE SETI
VANGUARD Astronomer
Jason Wright (third from the left, wearing sunglasses) and his students visited
the Green Bank Telescope as part of the first SETI graduate course at Penn
State University.
CHRISTIAN GILBERTSON
In
the last five years, scientists’ attitudes toward the search for intelligent
alien life have been changing, Wright says. SETI used to have a “giggle
factor,” raising images of little green men, he says. And talking about SETI
work as an astronomer was considered taboo, if not academic suicide. Now, not
so much. “I have the pop sociology theory that the ascension of geek culture
has something to do with it,” Wright says. “Now it’s like all the top movies
are comic books and science fiction.”When NASA requested a report in 2018 on what technosignatures are and how to look for them, SETI researchers thought hopefully that the space agency might be ready to get back into the SETI game. Colleagues tapped Wright to organize a meeting to prepare the technosignatures report, posted online December 20 at arXiv.org.
But Wright didn’t stop there. He convened the new workshop group with the goal of dividing up the work of writing at least nine papers on specific SETI opportunities for the decadal survey. By contrast, there was only one submission on SETI research, written by Tarter, in the 2010 decadal survey.
The SETI situation has also evolved since the 2009 launch of the Kepler space telescope, which discovered thousands of exoplanets before its mission ended in 2018 (SN Online: 10/30/18). Some of those planets outside our solar system are similar in size and temperature to Earth, raising hopes that they may also host life. Old arguments that planets like Earth are rare “don’t hold much water any longer,” Wright says.
The exoplanet rush has sparked a surge in research about biosignatures, signs of microbial life on other planets. NASA’s next big space telescope, the James Webb Space Telescope, is planning to search directly for signs of alien life in exoplanet atmospheres (SN: 4/30/16, p. 32). So far, though, no one has found any biosignatures, let alone technosignatures. But the focus on searching for the one makes the case for ignoring the other seem all the weaker, Wright says.
“Astrobiology and the search for life has become such a big part of what NASA does,” he says. “The fact that it won’t look for intelligent life has become ever more incongruous with its other activities.”
Citations
NASA
Technosignatures Workshop Participants. NASA and the search for technosignatures.
arXiv:1812.08681. Posted December 20, 2018.
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 2019 Astronomy Lecture Series
Each
year the Observatories organizes a series of public lectures on current
astronomical topics. These lectures are given by astronomers from the
Carnegie Observatories as well as other research institutions. The
lectures are geared to the general public and are free.
–
only 4 per year in the Spring www.obs.carnegiescience.edu. For more
information about the Carnegie Observatories or this lecture series, please
contact Reed Haynie. . Click here for
more information.
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6 June
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AEA Astronomy Club Meeting
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Great Courses Astronomy Lecture
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(A1/1735)
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6 June
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7
June
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Friday Night 7:30PM SBAS Monthly General Meeting
in the Planetarium at El Camino College (16007 Crenshaw
Bl. In Torrance)
Topic: “Cosmic Butterflies: The Planetary Nebulae,” Dr.
Steven Morris
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7 June Friday, 8 PM CalTech Astro: Stargazing and Lecture
Series “We Were the Discoverers: Witnessing the Exoplanet Revolution” a lecture
by Arpita Roy. For directions, weather updates, and more information, please
visit: http://outreach.astro.caltech.edu
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June 9, 2019
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UCLA Meteorite Gallery Events
DR. DAVID MITTLEFEHLDT
THE HISTORY OF ASTEROIDS, WRITTEN IN STONE
Location:
Slichter Room 3853
Time: 2:30PM
Our
next Gallery Lecture will be presented by Dr. David (“Duck”) Mittlefehldt
from the Johnson Spacecraft Center in Houston. Duck is our former student.
Achondrites – a subset of stony meteorites – were formed by processes
familiar to any terrestrial geologist: melting to form magmas, separation
from their sources, and crystallization upon cooling. There are a number of
achondrite groups; each from a different asteroid; each with its own story to
tell of the geology of its parent asteroid. In this talk, he will discuss the
mineralogy, texture, and chemistry of several achondrite groups, and describe
how they inform us of the earliest phases of the geologic history of
asteroids.
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10 June
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LAAS General Mtg. 7:30pm Griffith Observatory
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11 July
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AEA Astronomy Club Meeting
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Quarterly Pizza Party & TBD Presentation
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(A1/1735)
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June 20 & 21 The von
Kármán Lecture Series: 2019
Such Stuff as Dreams are Made On: Designing Tomorrow’s
Space Missions Today
Walk through the lifecycle of a mission from its start as a
crazy idea, to concept, to development, construction, testing and launch.
Host:
Brian White
Brian White
Speaker:
Dr. Randii Wessen
JPL Systems Engineer, A-Team Lead Study Architect JPL Innovation Foundry
Dr. Randii Wessen
JPL Systems Engineer, A-Team Lead Study Architect JPL Innovation Foundry
Location:
Thursday, June 20, 2019, 7pm
The von Kármán Auditorium at JPL
4800 Oak Grove Drive
Pasadena, CA
› Directions
Friday, June 21, 2019, 7pm
Caltech’s Ramo Auditorium
1200 E California Blvd.
Pasadena, CA
› Directions
› Click here to watch the event live on Ustream
* Only the Thursday lectures are streamed live.
Thursday, June 20, 2019, 7pm
The von Kármán Auditorium at JPL
4800 Oak Grove Drive
Pasadena, CA
› Directions
Friday, June 21, 2019, 7pm
Caltech’s Ramo Auditorium
1200 E California Blvd.
Pasadena, CA
› Directions
› Click here to watch the event live on Ustream
* Only the Thursday lectures are streamed live.
* Only the Thursday lectures are streamed
live.
Observing:
The
following data are from the 2019 Observer’s Handbook, and Sky & Telescope’s
2019 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 June:
Moon: June 3 new, June 9 1st
quarter, June 17 Full, June 24 last quarter
Other
Events:
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1 June
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SBAS
out-of-town Dark Sky observing – contact Greg Benecke to coordinate a
location. http://www.sbastro.net/.
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1 June
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LAAS Private dark
sky Star Party
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5 June Mars 1.6 deg N
of Moon
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5,12,19,26 June
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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
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8 June
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LAAS Public
Star Party: Griffith Observatory Grounds 2-10pm See http://www.griffithobservatory.org/programs/publictelescopes.html#starparties for more information.
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10 June Jupiter at
Opposition
19 June Saturn 0.4 deg
N of Moon
21 June Summer
Solstice
23 June Mercury
at Greatest Eastern Elongation
30 June Asteroid Day
For more information see: https://asteroidday.org/
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, Walt Sturrock, 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
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