APOD 2.6

Contemplating the Sky

Have you looked up recently? Last night was a really good night to do some observing but tonight should be too as you will be able to see many meteors from the Geminids meteor shower if you are in a northernly location. Last's night show to tonight's should be the shower's peak. This picture was taken 10 days ago in the Maranjab Desert in Iran. - Venus and the cescent moon is visible. Tonight Mars and Mecury should be visible just above the southwestern horizon at sunset, while the first quarter moon wills set around midnight.



APOD 2.5

Anticrepuscular Rays Over Colorado

Although this looks like its something supernatural, this scene is created by nothing more than the setting sun and a few clouds. These are anticrepuscular rays! To understand them you should first try to envision common crepuscular waves which you see anytime sunlight pours through scattered clouds. The projections of these line onto the sphereical sky are great circles. At the anti-solar point 180 degrees from the Sun, they are referred to as anticrepuscular rays.



Observations

11/6/10
I went out into my backyard and managed to find quite a few things!
There was some light pollution due to the street lamps out front, but overall the stargazing wasn't too bad.
Summer Triangle
Altair
Cepheus(?)
Sagittarius
Vega


11/15/10
I was at a friend's house on Siesta Key and we decided to go to the beach. There's more time for stargazing now that it gets dark earlier! I managed to see the northern cross in Cygnus and I found this by first locating the summer triangle and looking for Deneb. The summer triangle isn't that hard to spot so it's a great marker for locating other constellations in the sky! I also managed to spot Hercules and Aquila.

APOD 2.4

A Massive Star in NGC 6357

Astronomers haven't figured out why NGC 6357 is forming some of the most massive stars ever discovered. In the greater nebula, the intricate patterns are caused by complex interactions between interstellar winds, radiation pressures, magnetic fields, and gravity. The overall glow of the Nebula results from the emission of light from ionized hydrogen gas. The central part of NGC 6357 spans about 10 light years and lies about 8,000 light years away towards the constellation of Scorpion. 

Link to picture: http://apod.nasa.gov/apod/image/1011/ngc6357_hst_big.jpg

Great World Wide Star Count

Last Thursday, November 11th, I participated in the "Great World Wide Star Count" which is an attempt to measure the amount of light pollution on Earth. I was able to see up to third magnitude stars from my location at home. I then submitted these observations about Cygnus to their website.

APOD 2.3

The Iris Nebula

11/12/10

This picture shows clouds of interstellar gas and dust that have blossomed 1.300 light years away in the Constellation Cepheus known as the king. Cataloged as NGC 7023, it isn't the only nebula in the sky to evoke imagery of flowers. It's really awesome how you can see the different ranges of colors in so much detail! Infrared observation indicate that this nebula may contain complex carbon molecules known as PaHs. The Bright blue portion of the Iris Nebula is about  six-light-years across.

APOD 2.2

11/5/10

Night Lights

The Constellations that sprawl across this night sky are not of the skies of planet Earth, but a view from the International Space Station as it passed along the northern gulf of the United States on Oct. 29th. Docked in the foreground is a Russian Soyuz Spacecraft. Behind its extended solar panels, some 360 panels below, are the recognizable city lights of New Orleans! One can make out Houston, Mobile, and can trace the lights of of central US highway 155. November 2nd marked the first decade of continuous human presence in space on board the International Space Station.

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APOD 2.1

10/28/10

Ultraviolet Andromeda

This vista represents the highest resolution image ever made of the Andromeda Galaxy (m31) at ultraviolet wavelights! We have just learned about the light spectrum and it's to see just how much more stunning the image is here is ultraviolet than it would be in optical light. The mosaic was recorded by NASA's Swift Satellite and is composed of 330 individual images covering a region 200,000 light years wide! DOmintaed by hot, young stars and dense star clusters that radiate strongly in energetic and ultraviolet light, it shows about 20,000 sources. The Andromeda Galaxy is closest large spiral galaxy to the Milky Way at a distance of about 2.5 million light-years.

APOD 1.8

10/22/10

Toward the Northern Constellation Cepheus, known as the "king" and a circumpolar constellation, and at the edge of a giant molecular cloud, this glowing star forming region consisting of pillars of gas, dust, and young, hot stars lie about 3,000 light years away. Bright edges and dark shapes are highlighted within this nebula. The atomic emission is powered by the energetic radiation from the hot stars, whose powerful winds and radiation also sculpt and erode the denser pillar shapes. This field spans approximately 60 light years at the estimated distance of NGC 7822. :)

Observation

10/16/10

Last Saturday, some friends and I decided to take advantage of our newfound constellation knowledge and go outside and look up at the sky. Although it wasn't as dark as we needed it to be on Stickney Point, we made do and were actually able to spot some stellar objects!
We saw the brightest star Venus, which we have been able to see for the past couple of months now.
We also saw Sagittarius and what we thought was Cassiopea.
In addition I managed to spot the keystone within hercules. If you titled your head all the way back you could see the summer triangle!

All in all, considering the light pollution and the conditions we were in, it was a pretty successful night!

Willebrord Snell Biography

McBride 1

Megan McBride

Honors Astronomy

Percival 3

15 Oct 2010

Willebrord Snell Biography

            Willebrord Snell was born to an affluent family in Leiden, Netherlands in 1580. He studied law at the University of Leiden although he had a great passion for math. He traveled widely in Europe, visiting Paris, Würzburg, and Prague, and among the celebrated scientists he met were Johannes Kepler and Tycho Brahe. In 1613 he succeeded his father, Rudolph Snel van Royen (1546-1613), as professor of mathematics at the University of Leiden. Although he lived a relatively short life span, the accomplishments of Snell and his contributions to science are priceless.

It was during 1615 that Snell set himself the task of determining the length of a degree of the meridian. For this purpose he chose the method of triangulation originally suggested by Gemma Frisius (1533). Starting with his house and taking the spires of nearby churches as reference points, he measured a net of triangles from Alkmaar to Bergen-op-Zoom using a huge 130-inch (210-centimeter) quadrant. This allowed him to accurately compute the distance between these towns and also calculate length of a degree of the meridian. His results were published in Eratosthenes batavus (1617). His corrected value of 69 miles (111 kilometers) for the length of a degree of the meridian is within a few hundred meters of the presently accepted value. His method of using triangulation in his work in this field set the foundation of geodesy. In another great contribution, Snell improved the classical method of calculating approximate values of π by polygons. Using his method 96 sided polygons give π correct to 7 places while the classical method yields only 2 places.

Willebrord's biggest contribution to science, however, is the law of refraction, even though it wasn't published until almost 70 years after he died. He found that a beam of light would bend as it enters a block of glass, and that the angle of bending would depend on the angle of the light beam. Light traveling perpendicular to the glass will not bend, however, if the light travels at an angle into the glass it will bend to a degree proportional to the angle of inclination. In 1621, Snell found a characteristic ratio between the angle of incidence and the angle of refraction. His law demonstrates that all substances have a specific bending ratio or "refractive index". The greater the angle of refraction, the higher the refractive index for a substance. This law can be described by the following formula: n₁ sin < = n₂ sin < Scientists from Ptolemy (fl. second century A.D.) to Johannes Kepler (1572-1630) had searched in vain for a law to explain this phenomenon.

Though Snell never published his own findings, the manuscript containing the discovery was examined by Isaacus Vossius (1618-1669) and Christian Huygens (1629-1695), who commented upon it in their own works. However, priority of publication goes to René Descartes (1596-1650), who presented the law without proof in his Dioptrique (1637). Huygens and others accused Descartes of plagiarism. Though Descartes's many visits to Leiden during Snell's life make the charge plausible, there seems to be no evidence to support it. Snell did however publish Cyclometria sive de circuli dimensione (1621), and Tiphys Batavus (1624).

Snell's additional astronomical work includes observations of the comet of 1618. His parallax measurements clearly indicated the comet was above the sphere of the Moon. Nevertheless, his support for the Ptolemaic system remained unshaken. In Cyclometricus (1621) he used Van Ceulen's methods to determine the value of π to 34 decimal places. His work on navigational methods focused on the study and tabulation of Pedro Nuñez's rhumb lines (1537), which Snell referred to as loxodromes. This material appeared in Tiphys batavus (1624). Canon triangulorum (1626) and Doctrina triangulorum (1627) contain the fruits of his research on plane and spherical trigonometry. The latter unfinished work was completed and published posthumously by his student Martinus Hortensius.

Snell died at the relatively young age of 46 on October 30, 1626 in Leiden. He would never realize how the importance of his discovery of the basic laws of refraction would prominently position his name in textbooks on physics and optics!

APOD 1.7

Clusters, Hartley, and the Heart

10/15/10

Comet Hartley 2 flew through the night sky on Oct. 8th passing close to the famous double star cluster in Perseus. This view spans about 7 degrees and you can see a greenish comet and the clusters h and Chi Persei at the left! It extends across the constellation boundary into Cassiopeia all the way to the Heart Nebula (IC 1805). You can see the faint reddish glow of the nebula's atomic hydrogen gas as a result of the use of narrow-band exposure. Mark you calendars! On Oct. 20th, the comet will make its closest approach to Earth passing within approximately 17 million kilometers!!!





APOD 1.6

Hubble's Lagoon

10/8/10

The canvas of this beautiful picture is almost 3 light years wide and the colors mark emissions from ionized gas in the Lagoon Nebula. (Recorded by the Hubble Space telescope's Advanced Camera for Surveys.) The nebula, otherwise known as M8,  is a star-forming region in the constellation Sagittarious about 5,000 lights years away! This remarkable close up image shows "undulated shapes" sculpted by the the energetic light and winds from the region's new born stars. IT'S JUST SO COOL! And pretty.



Sources

"Willebrord Van Roijen Snell (Dutch Astronomer and Mathematician) -- Britannica Online Encyclopedia." Encyclopedia - Britannica Online Encyclopedia. Web. 01 Oct. 2010. <http://www.britannica.com/EBchecked/topic/550440/Willebrord-van-Roijen-Snell>.

"Willebrord Snell." The Columbia Encyclopedia, Sixth Edition. 2008. Encyclopedia.com. 1 Oct. 
2010<http://www.encyclopedia.com>.

APOD 1.5

Zarmina's World

10/1/10

 Red dwarf star Gliese 581, located only 20 light years from the constellation Libra, has received much deserved attention from astronomers recently! What's really significant/incredible is that fact that through earthbound telescopes, we have discovered multiple planets orbiting this cool sun, two at least close to it's habitable zone. (Where liquid water can be present on a earth-like planet's surface.) Steven Vogt and Paul Butler have detected that there's another planet and this one is squarely in the system's habitable zone! Data includes that the planet has a 37 day orbit, and orbital radius of only 0.15 AU and a mass 3.1 times that of Earth's. This is a really incredible discovery. People have been arguing for ages about whether there could be life on an other planet and even if there isn't, the fact that it could be potentially inhabited is amazing in itself! The fact that Zamina's world is so close by suggests that there could be many more in the Milky Way galaxy.

APOD 1.4

Today, September 23rd the sun crosses the equator passing south an event known as the autumnol equinox. I was really excited to see this picture as I was aware that this event was takign place today! It crossed at approximatley 3:09 Universal Time. With the sun on the celestial equator, we will experiance 12 hours of daylight and darkness. Days in the northern hemisphere will continue to grow shorter as winter approaches and the sun decends lower in the sky. This picture is really awesome to look at - you can see loops and arc that trace the glowing plasma!

Observations 9/5/10 - 9/20/10

9/5/10
Last night at about 10pm, I went out on to my driveway and to my surprise, I was able to identify Sagittarius and the Corona Australis. I was looking for the Teapot and It was relatively easy to spot! I also managed to see Venus.

9/11/10
Observing from my driveway, approximately 9pm, it looked as if the moon had almost reached the first quarter so I figured it was in the last moments of waxing crescent phase. The moon was in an eastern position against the sky. I was not able to identify any specific constellations-only the planet Venus, which is still pretty cool.

9/17/10
Friday night I was on my friend's beach on casey key. I observed that the moon was waxing gibbous making it so bright, that it was really difficult to point out specific constellations. Nontheless, far to the east of the moon, I managed to make out a super bright star that I thought was Venus. Looking at the sky from the beach was really great due to the relative darkness of my surroundings- I'll have to be sure to go again when the moon is in a better phase.

9/20/10
Although I did not manage to make it to the scheduled Observation, I did manage to do some observing of my own outside my house at about 9pm. When I looked directly overhead, I could see the summer triangle which includes the stars Vega, Altair, and Deneb! I was able to spot scorpius, and its brightest star Antares, made it easier for me to spot.

APOD 1.3

Northern Lights over Prelude Lake (9/17/10)

This depicts shimering green light cross over this intense skyscape. The Prelude lake is located about 30 kilometers east of Yellowknife, Northwest Territories, Canada. These northern lights or, the aurora borealis, come from high northern latitudes and are also becoming a more farmiliar sight. I was delighted to be able to recognize the big dipper and realize myself that since we are close approaching the equinox, this aurora will be able to seen more easily and for a longer of time. It's definitely worth a trip to Alaska or some northern territory- Everyone should see the corona borealis once in their lifetime!

APOD 1.2

Picture  - GRO J1655-40 Evidence for a  Spinning Black Hole (10 Sep 2010)

Inside a center of a swirling whirlpool of hot gas is what appears to be a black hole; something that has never before seen directly. What drew me to this  picture was obviously the bright light that is emitted by the swirling gas. The surounding gas has a flickering of about 450 times per second. Astronomers estimate that the center object inside is about seven times bigger than our sun. I have never before seen an image of what a black hole actually looks like, its usually a ridiously wrong mental image most people gain from movies and the like. This picture demonstrates how much research and scienfic gain will be made in the future. One day we will be able to answer questions like what physical mechanisms actually causes this flickering? The graphic image is amazing!

APOD 1.1

Picture- Sep 2nd 2010

The Bubble Nebula

I picked this picture because I have never seen anything like this in space before! It looks very mystical- It has a majestic aura especially accentuated by the blue circle that surrounds the bubble and is within the re-toned sky and pink looking stars. Above and to the right of the bubble's center is an O-Type star which is several hundred times more luminous 45 times more massive then the Sun. Call me ignorant but before I saw this picture I had no idea there was any celestial object in Space brighter than the Sun! The Bubble Nebula lies 11,000 light years away.