Tag Archives: New Moon Telescopes

CNYO Observers Log: MOST Climate Day And North Sportsman’s Club Practice Session, 19 April 2014

Greetings fellow astrophiles!

The Saturday after NEAF was a busy one for CNYO members, including a lecture and observing session for the MOST Climate Day during the afternoon and a nighttime “dry run” for the North Sportman’s Club Public Viewing Sessions we’re on the verge of hosting for the rest of the year.

The morning started with a hectic rearrangement of speakers for the TACNY Jr. Cafe session, with Prof. Peter Plumley (MOST, Syracuse University) and Prof. Timothy Volk (SUNY-ESF) admirably filling in for a missing speaker (and the crowd requests for future topics were heavy in astronomy!). And speaking of Jr. Cafe astronomy, we note the May 17th lecture features CNYO’s own Ryan Goodson speaking on Newtonian Telescopes (with a solar session to follow if the skies hold)!

The indoor part of CNYO’s contribution to the MOST Climate Day featured myself and a lecture about the Sun/Earth relationship. While that lecture was given to only 2.5 people (one person left half-way), a 50 minute talk extended to 90 minutes thanks to some excellent discussions and deeper probing of some of the slide content.

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Larry and observers on the Creekwalk. Click for a larger view.

Outside, Larry Slosberg hit the public observing jackpot with his 12″ Baader-ized New Moon Telescope Dob and NASA Night Sky Network Solar Kit. Between the MOST crowd, Record Store Day at Sound Garden, and a Creekwalk made busy by the clear skies and comfortable temperatures, Larry counted over a few dozen new observers before I even made it outside. To Larry’s solar collection I added a Coronado PST for some excellent H-alpha views of sunspots and several prominences that changed significantly over the course of an hour (which was made all the more impressive to passers-by when you mention that these changes could be measured in units of “Earths” instead of miles).

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An intrepid observer at the Coronado PST. Click for a larger view.

Larry and I packed up around 4:00 p.m. after giving nearly 40 people a unique view of our nearest star, providing a three-hour window before heading off to North Sportsman’s Club (NSC) for an evening session.

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Some of the NSC crew setting up. Click for a larger view.

We also used April 19th as a reintroduction to the skies above the NSC, with this session opened up to a short-list of people with scopes interested in helping reduce the lengths of observing lines at future public sessions (and we welcome others interested in bringing their scopes to these sessions to please contact us using our online form or by emailing us at info@cnyo.org).

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The Big Dipper (Ursa Major) and surroundings. Click for a larger view.

The total in attendance was between 10 and 12 over the two hours I was present (and the event continued for some time after), with about half as many scopes present (which is a great number for even large public viewing sessions). Despite it becoming a very cold evening, the combined observing list was extensive from among all parties, with New Moon Telescope’s 27″ Dob making many views extra memorable.

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The view to the Southwest (featuring a bright Jupiter near center). Click for a larger view.

We are planning our first public session for 2014 in late May, perhaps to coincide with the predicted meteor super-storm on the early morning of May 24th. Keep track of cnyo.org or our Facebook group page for details!

Photo Highlights From NEAF And NEAFSolar 2014

Greetings fellow astrophiles!

Another NEAF has come and gone. This past April 12th and 13th, Ryan & Heather Goodson brought New Moon Telescopes back to a triumphant return (and slightly wider booth) to “America’s Premiere Astronomy Expo” and, I suspect, by far the largest such event on the East Coast (if not anywhere). The NMT booth also served as a meetup spot for this year’s #NEAFPosse and a place to catch up with fellow CNY observers Stephen Shaner and Pedro Gomes. The NEAF Solar session, hosted by solar observing’s godfather (and regular article contributor) Barlow Bob was almost entirely unobstructed by clouds (although that wouldn’t have bothered ASRAS’s Marty Pepe’s Radio Astronomy setup any). After the Saturday festivities, Patrick Manley and the rest of the #NEAFPosse enjoyed several hours of space-inspired frivolity at the Challenger Center (complete with flight simulators, a fully-operational mission control, and cake!).

With two days full of vendors and catching up with members of Kopernik Astronomical Society, Mohawk Valley Astronomical Society, the IOTA (happy they don’t blame us for the cloud cover during the Regulus occultation), Astronomy Technology Today (with thanks for the additional copies of the NMT feature article in last May-June’s 2013 issue!), and various others you only see once a year (in the daytime, anyway), I was only able to catch one talk. That said, it was enough, both as an amateur astronomer and as someone engaged in public outreach. Stephen W. Ramsden, the man behind the Charlie Bates Solar Astronomy Project, has put together an incredible (and very well-traveled) one-observer show that travels the world bringing solar astronomy to the masses. STEM outreach would be much farther along if every field of science and technology had a Stephen Ramsden out there. Do check out www.charliebates.org and consider donating to the cause.

With that, we await NEAF 2015!

Selected Images

Row 1:
Barlow Bob at the center of NEAFSolar
One long line to the Sun
Marty Pepe’s Radio
Astronomy rig
Row 2:
NMT’s “Gojira” near closing
Ryan and the NMT booth
Manley @ center and part of the #NEAFPosse
Row 3:
Yuri’s Night celebration
Challenger Center flight simulators
Mission Control before
the mission
Row 4:
Sunday morning before the doors open
Stephen Ramsden featuring bad journalism
Arunah Hill’s doorstop

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TACNY Junior Cafe Scientifique: “Monster Telescopes and How They Are Built” – Featuring CNYO’s Own Ryan Goodson!

Saturday – May 17, 9:30-11:00am

Milton J Rubenstein Museum of Science & Technology – Syracuse, NY


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The history and recent developments of the kind of telescope made famous by Isaac Newton – the Newtonian Reflector. We will begin the discussion from the perspective of the great Newton in the 1600s with his humble 1 1/2″ reflector, then journey through time to the present day, when amateur astronomers can often be seen in fields with telescopes large enough to rival or often surpass the size and quality of many professional observatories. We will focus on how the telescope is built, from the choice of wood to the installation of advanced electronics, finishing the discussion with what they are ultimately able to show us.

People interested in learning more about telescopes are invited to attend the free Junior Cafe presentation on Saturday, May 17, from 9:30 a.m. to 11 a.m. at the Milton J. Rubenstein Museum of Science and Technology (MOST) in Syracuse’s Armory Square. Walk-ins are welcome, but we ask that people RSVP by emailing jrcafe@tacny.org by May 14, 2014.

Presenters

2013june25_ryangoodson_bioRyan E. Goodson became fascinated with astronomy after seeing a meteor-turned-fireball streak across a wheat field in Wichita, Kansas in April of 2005. This led to an early involvement in amateur astronomy that quickly turned into an obsession. Since that time he has spent countless hours studying telescope design, structural engineering, and optics in order to perfect what has become the large and small truss-style telescopes he manufactures today as the owner of New Moon Telescopes in West Monroe, NY.

Ryan founded New Moon Telescopes in July of 2012 and has since sold and shipped telescopes throughout the U.S. and abroad. His fledgling company was the cover feature in the June/July 2012 issue of Astronomy Technology Today magazine. Ryan’s new collapsible truss design for Dobsonian-style telescopes was also highlighted in the August 2013 edition of Sky & Telescope. Ryan is currently the treasurer of the Syracuse Astronomical Society and the secretary of CNY Observers & Observing, serving in both organizations as a star party coordinator and public lecturer on astronomy equipment and observing. He can usually be found observing through one of his creations on that rare night of clear skies here in Upstate NY.

TACNY Junior Cafe Scientifique

TACNY Junior Cafe Scientifique, a program for middle-school students founded in 2005, features discussions about topics in the fields of science, technology, engineering and mathematics in an informal atmosphere and seeks to encourage students to consider careers in these areas. Students must be accompanied by an adult and can explore the MOST at no cost after the event.

Technology Alliance of Central New York

Founded in 1903 as the Technology Club of Syracuse, the nonprofit Technology Alliance of Central New York’s mission is to facilitate community awareness, appreciation, and education of technology; and to collaborate with like-minded organizations across Central New York.

For more information about TACNY, visit www.tacny.org.

Total Lunar Eclipse, Mars Just Past Opposition And A Very Early Observing Event At Baltimore Woods on April 15th

Greetings fellow astrophiles!

The next few weeks are busy ones for CNYO and amateur astronomers in general.

April 10th (just this morning)STEM Career Day At National Grid (image below)
April 15th (from midnight to 3:30ish)Total Lunar Eclipse & Mars Just Past Opposition
April 12th and 13thCNYO and New Moon Telescopes (NMT) At NEAF
April 19thMOST Climate Day (And CNYO Lecture)
April 24th – Seasonal Observing At Beaver Lake Nature Center

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A piece of Mars, some meteors, several magnets, terrestrial rocks with larger meanings, four things we didn’t know “when I was their age,” and additional makings of a set of STEM astro demos.

But back to the eclipse and opposition. It is my opinion that lunar eclipses don’t get the respect they deserve. Yes, solar eclipses are much more exciting and it has been well-documented that people have previously responded very strongly (and not always pleasantly) to solar eclipses. The sudden darkening of the sky and noticeable temperature drop can cause all shades of responses (no pun intended) in people. That said, all we really get (besides a view of the solar corona) is an example of what happens when you put a black disc in front of the Sun. Lunar eclipses, on the other hand, tell us a bit about how the Earth itself interacts with the Sun by how this interaction alters our view of the Moon.

Both solar and lunar eclipses tell us something about the Sun/Earth/Moon relationship. Specifically, we learn that the Sun/Earth orbital plane (the oval made as the Earth goes around the Sun each year) and the Earth/Moon orbital plane (our local oval) are not the same – the Earth/Moon plane is tilted slightly off the Sun/Earth plane by 5.2 degrees (small, but just enough). That is, the Moon spends some time above and some times below the Sun/Earth orbital plane, while sitting right in the plane only two times each orbit (where the two planes intersect). How do we know this? Simple. If the Earth/Moon plane were exactly in the Sun/Earth plane, there would be a total solar eclipse and total lunar eclipse every month because there would be a time each month (New Moon) when the Sun, Moon, and Earth made a straight line (Sun-Moon-Earth = solar eclipse) and a time each month (Full Moon) when the Sun, Earth, and Moon made a straight line (Sun-Earth-Moon = lunar eclipse). As the two planes are slightly off, the New Moon is simply “off the radar” of most people because it can’t be seen during the daytime. The Full Moon, on the other hand, is brilliantly bright most of the time because it only infrequently enters the Earth’s shadow.

The image below shows this very nicely (and it’s always better to find and cite a good image than to have to roll your own). Give it a look for 30 seconds to make sure each of the four cases make sense to you.

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The Sun/Earth and Earth/Moon orbital planes. Note the top and bottom orientations that are perfect for eclipses (and the left and right that are not). Image taken from www2.astro.psu.edu (from Chaisson & McMillan Publishing). Click for a larger view.

Total solar and lunar eclipses, then, occur on special, but periodic and predictable, occasions when the Moon finds itself exactly in the Sun/Earth plane. When it’s just ever-so-slightly off this plane AND still between the Sun and Earth (or still falls into the Earth’s shadow in the Sun-Earth-Moon arrangement), we get partial eclipses. Just that simple.

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What to expect on April 15th (the government’s cashing in on its short wavelength tax!). Image from this article at io9.com.

Perhaps the most striking difference between a solar and lunar eclipse is that a solar eclipse obstructs the disc of the Sun, leaving only a view of its wispy exterior (corona), while a lunar eclipse alters the color of the Moon while still allowing us to see it in its entirety. Those watching the lunar eclipse will see the Moon go from its usual bright grey to orange, then a dark red before reversing the color order. The reason for this dark red coloring is the same reason why our sky is blue – the scattering of light in our atmosphere. Recalling our handy scattering relationship – that scattering (I) is proportional to 1 / wavelength4, we see that shorter wavelengths scatter more than longer wavelengths (because the wavelengths are in the bottom of the proportion, so larger numbers decrease the value of “I”). The image below was taken from one of the great non-wikipedia physics sites (well worth several afternoons to explore), hyperphysics.phy-astr.gsu.edu.

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The scattering relationship. See hyperphysics.phy-astr.gsu.edu/…/blusky.html for much, much more.

We see that shorter wavelength light gets “bounced around” more, while longer wavelength light passes for longer distances unimpeded by interactions with molecules and larger particles (like soot after big volcanic eruptions) in our atmosphere. Light going straight from the Sun hits our atmosphere and gets increasingly scattered as wavelength gets shorter – blue scatters more than red, so we see the blue strongly when we look up during the day. With the blue light strongly scattered, those people on the edges of where the Sun’s light falls – those just starting or ending their days – see more red light because that wavelength wasn’t as strongly scattered – effectively those at sunrise and sunset get the filtered-out leftovers of the light that those at high noon see as blue. The “lit” side of the world experiences a range of different colors depending on where they are during the day, but all are being illuminated by waves of light from the Sun that left at the same exact time (plus or minus a nanosecond or two).

Because it’s a busy week and the author is feeling lazy, he refers you to the top image of the three-panel image below, showing how the scattering of sunlight in our atmosphere occurs sooner after entry (on average) for blue, a bit later (on average) for green, then a bit later (on average) for yellow, then out to red, some of which is and isn’t scattered (on average).

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The scattering of light by Earth’s atmosphere (shorter wavelengths scatter sooner). The other two images are placed into context by your reading about extrasolar planetary atmosphere studies. See www.universetoday.com/…-in-blue-light/ for that info.

And so, we know that blue is scattered strongly and red is not. This red light then races to the edges of our illuminated globe and the red light not scattered directly down to Earth or scattered in the opposite direction (out into space right above you) races past Earth at various altered (scattered) angles. During the most complete part of the lunar eclipse, the red color you see is, in fact, the red light that is passing through the edges of our atmosphere at those places experiencing sunrise and sunset (the sunlight performing a “grazing blow” of our atmosphere). As you might guess, if Earth were to lose its atmosphere (but don’t give any of your industrious friends any ideas), our lunar eclipses would appear quite different. Instead of a dark red Moon, we’d simply see a black disc where no stars shone (like placing a quarter at arms length and obscuring anything behind it).

This lunar eclipse just happens to coincide with another special event in our Solar System that just passed on April 8th – Mars at Opposition. Earth-centric oppositions occur when the Sun and a planet (from Mars out to Neptune, then dwarf planets, comets and asteroids also fit the description) are on opposite sides of the sky to one another (this cannot happen for Venus and Mercury to an observer standing on Earth – this also means that Earth is never “at opposition” for Mars). This necessarily means that, when this occurs, the Earth and that other object are as close as they will get for that Earth year. Because our orbits are not circular around the Sun, our distances at opposition do vary. The slightly outdated image below shows this difference of opposition distances for Mars from 1995 to 2001. August of 2003 was our closest approach (34 million miles) to Mars in roughly 60,000 years, making for some impressive views through even medium-sized scopes.

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Mars distances at four oppositions. Image taken from the Hubble Space Telescope website. Click for a larger view.

What does this opposition mean for us? For those attending Baltimore Woods for Bob Piekiel’s special Lunar Eclipse observing session on the (really early) morning of April 15th (that is, we’ll be set up from 11:00 p.m. on the 14th and hanging out until it’s over), this means that Mars will be just a few days past its closest approach to Earth, making for especially good views through the scopes in attendance. Add Jupiter and Saturn over the course of the lunar eclipse, and we’ve a small feast of planetary observation for the evening. We hope you can join us!

CNYO Observing Log: Baltimore Woods, 22 March 2014 (And An Erigone Summary)

Greetings fellow astrophiles!

The often-announced (on this site, anyway) Regulus occultation by asteroid (163) Erigone on the morning of March 20th was a near-wash (no rain, but plenty of cloud cover), with only a few messages being passed around at midnight to see if anyone was even going to try for 2:00 a.m. That said, the International Occultation Timing Association (IOTA) got lots of good press and, with luck, a similarly notable occultation will occur to catch other eyes and instigate the IOTA to prep another big public recording effort. Those who want to relive the non-event can watch the Slooh Community Observatory coverage in the youtube video below.

Then, two days later, Bob Piekiel with his Meade C11 and I with my New Moon Telescope 12.5″ Dob treated two couples at Baltimore Woods to the kind of crystal clear and steady skies you read out but usually never have the good fortune to be out for. With the late March and early April temperatures beginning to melt the high hills of ice and snow around all the big parking lots in the area, the Baltimore Woods setup was a bit solid, a bit slushy, and quite dirty. Our four-person audience arrived early in time to watch the clear skies darken and Jupiter, Sirius, and Betelgeuse first appear in the South/Southwest sky. For the next 90 minutes or so, the observing list included Jupiter (several times at several magnifications, both early in the evening and after the skies had sufficiently darkened to bring out more detail), the Pleiades (M45), the Beehive Cluster (M44), the Orion Nebula (M42), Alcor and Mizar in the handle of the Big Dipper, the Andromeda Galaxy (M31) and its prominent satellites (M32 and M110) very low on the horizon (very likely our last catches of our sister galaxy for several months to come), and even M82 to say that we had, at least, seen the location of the recent supernova (if not a last few photons from it).

In an attempt to help someone remember as many constellations as possible at the Liverpool Public Library lecture a few weeks prior, I retold one of the more memorable tales of the winter star groupings of Orion the Hunter, Taurus the Bull, Canis Major (the big dog), Canis Minor (the little dog), and the Pleiades that I picked up from the excellent Dover book Star Lore: Myths, Legends, and Facts by William Tyler Olcott (which you can even read and download for free in an earlier form at archive.org).

Long story short, the Pleiades (also known as the Seven Sisters or the Seven Virgins) were the target of Orion’s rather significant attention, so much so that in his last run to them, the ever-invasive Zeus placed an equally significant bull in Orion’s path, leaving Orion and his two dogs (Canis Major and Canis Minor) stuck in their tracks. As is apparent from the images below, these four constellations (and one star cluster/Messier Object) are all tightly spaced in the Winter Sky. Better still, the end of Winter even finds these constellations standing on the horizon (instead of upside down in morning Autumn skies), making the picture all the more easily seen. As Orion is second only to the Big Dipper in terms of ease-of-seeing by practically everyone (raised in the tradition of Western Constellation arrangements, anyway), it’s the start constellation from which to find the other three. Canis Major is easily found by its shoulder star Sirius, the brightest start in our nighttime sky. Canis Minor is a leap from Sirius to Procyon, also a prominent star. Taurus the Bull is easily found by its head, the local star cluster known as the Hyades, and its orange-red eye, Aldebaran. The small sisters lie within the boundary of Taurus in a cluster that to the slightly near-sighted might just look like a fuzzy patch (but which, in binoculars, reveals numerous tightly-packed stars).

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Our cast of characters (and nearest neighbors). Image made with Starry Night Pro.

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The prominent stars in their starring roles. Image made with Starry Night Pro.

After packing up around 9:30 (about when the temperatures began to drop precipitously), I managed a single long-exposure image with my Canon T3i of the region above – quite possibly my last good look at the most famous Winter grouping until they appear again in the morning Autumn skies.

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Final scene from Baltimore Woods (with story labels). Click for a larger view.