APOD 2.6

Black Hole

This is a computer generated image of what a black hole looks like. Black holes are so massive and effect the surroundings so much that they bend and pull light in so much, that you cannot see the light it is blocking. There is supposedly a ring that forms where more light is bent around the hole, reflecting towards the viewer. These are scary beasts. Hard to find, and supposedly at the center of all galaxies. We really should discover more about these though. Lets go NASA

APOD 2.5

Mono Lake

Life until this point was thought to have required phosphorous. It is now known that life can be made of arsenic, as seen in the picture of the arsenic base life in the upper left hand corner found in Mono Lake. Mono Lake gives us hope that life will be found on other planets. This could mean that life could also exist from many other kinds of elements, and that the search must begin. Life starts as bacteria, but in billions of years, arsenic based life might flourish. The discovery though was a little underwhelming. When studying for unknown life, you definitely want to find something larger than 10 picometers, but this is a good start.

APOD 2.4

 

Another day another APOD. Today I chose Sisters of the Dust Sky. This is a beautiful image of the Seven Sisters star cluster in the top left, which is extremely well know for its blue output, and the reflection nebula behind it. Something I have always wondered is just how close a star cluster can get. Just how close do all these stars get to each other, and how does it look when they collide? Well this APOD did not answer these questions, but it did talk of the massive dust cloud that encases the cluster. The cluster is sore of a beacon of hope in the cloud, sucking up large amounts of dust, as seen in a larger picture of the star cluster itself. LBN 777 can be seen in the middle of the photo, but is not extremely interesting from what I read. It actually seems to be just weirdly formed dust. Another APOD, another beautiful sight.

APOD 2.3

Thin Galaxy Is Thin

Quite an awesome sight to behold, this thin galaxy, also named NGC 4452, this galaxy is just another awesome reminder of the amazing range of objects in our night sky. This picture was taken by Hubble, and it was taken when the galaxy was nearly on edge. The whole galaxy extends 35,000 light years end to end. This is absolutely astonishing to me. How anything can be so dang large, and still have that much depth and detail. It is also amazing that it emits so much light, which is partially due to its low dust levels. At the center of the galaxy must be an enumerable amount of stars, and emits this really strong glow, that I personally even find hard to look at on a computer screen. The awesome thing about this picture thought is the galaxy's proximity to other galaxies. Maybe many thousands or millions of light years away, hundreds of galaxies can be seen in the background, some of which might even be looking back at us.

APOD 2.2

Sunset from the ISS

What a beautiful sight, and a great way to see why our sky is the colors it becomes. The Troposphere during sunset becomes a orange/yellow color. The Troposphere is where the majority of Earth's clouds can be found. It is what creates the majority of the beautiful colors we see during sunset. The Stratosphere is a light blue band, that when mixed with the troposphere creates all the pink colors. It is a thin layer, and contains some hefty bacteria. The Stratosphere is also where airplanes fly, I guess I might know this if I had ridden in a plane more than once... Above the Stratosphere are many other upper atmospheric layers which are thin and eventually become the emptiness of space. The APOD also stated that sunset for the ISS is no big deal because they can see it up to 16 times a day.

APOD 2.1 THE SUN

That sure is one scary sun monster. It is actually a solar prominence that is the most massive eruption prominence ever recorded. This could easily escape from the sun in a Coronal Mass Ejection, and oh, you know, straight towards whatever planet it feels like at the moment. This prominence is huge though, and it would be extremely possible to fit up to two Earths into the prominence. An eruption prominence is expelled hot gas that is held into the sun by magnetic fields, and may last for a few hours or greater. The sun is also about to reach solar maximum, which occurs about every 12 years. This means more solar prominences, and greater possibility of death. FUN!!

APOD 1.8, "It's not a commet" said Arnold

M27

The list of awesome Messier objects we have studied increases. M 27 in Vulpecula is most definitely not a comet. From this APOD I learned that Messier's objective was to take chronicle of all the astounding objects in our sky that are not comets. This in a small telescope appears to be a planetary nebula, but is actually a  gaseous emission nebula, formed from a star that basically ran out of fuel, and now is expanding in a supernova. Great use of the emission spectrum, and different kinds of light gathering techniques, due to the fact that M 27 emits large amount of ultraviolet light, which is invisible. This is a very unique photo in the fact that not many photos of the Dumbbell nebula include the halo. Overall a very pretty object, and it definitely piques my interest in more Messier not-a-comet objects.

APOD 1.7

Rocky Plains of Mars

Opportunity keeps on chugging across the rough terrain of Mars every day. It is well on it way to the crater Endeavor, but still has quite the trek ahead of it. Seeing this awesome terrain makes me hope even more that we will be able to visit our neighbor planet one day. NASA is sending Opportunity to this crater in hopes that the asteroid uncovered enough of the planet to reach any evidence of previous life on the red planet. I personally cannot wait for the rover to reach the crater, and am a huge proponent of sending multiple higher quality rovers to the planet once we have better technology. Nothing would get us answers more quickly than having a lot more rovers on the surface.

Johannes Hevelius Essay

Rion Koball

Mr. Percival

D.E. Astronomy

15 October, 2010

Johannes Hevelius

            Hevelius was a very accomplished Polish astronomer. He was so well known in fact, that a king and a queen visited him at his home to look at his home-made observatory. One reason his observatory was so great was that he had created a telescope with a 150 ft. focal length, by himself. He published many works, and was even considered the founder of lunar topography. Aside from being an astronomer, he was the town’s brewer and councilor. He was such a successful brewer that he ran the Brewer’s Guild for 12 years. He was a very well-rounded man and experienced a combination of careers in his lifetime.

            Johannes Hevelius’ observatory was a true masterpiece, spanning across three rooftops. His main instrument was his150 ft focal length telescope that he made simply with wood and wire. This was the single longest tubed telescope invented before aerial telescopes made their appearance.

            Hevelius had many visitors, all well-known in their own right. His observatory was visited in 1660 by the Polish Queen Maria Gonzaga, and in 1678 by the Polish King John III Sobieski. In 1679 he was visited by Edmund Halley, who had been instructed by Robert Hooke and John Flamsteed to convince Hevlius to use the telescope to make astronomical measurements. Hevelius then proved to Halley, in comparing data, that he could make more accurate or just as accurate measurements with his naked eye as Halley could with a telescope. He made the majority of his extremely accurate measurements by using the quadrant and alidade system; this made him the last major astronomer to not use a telescope for taking measurements. It is amazing that he still had good enough eyesight to make these measurements after the copious amount of time he spent staring at the sun observing sunspots.

            Johannes spent four whole years of his life dedicated to mapping the surface of the moon. Johannes’ major work was Selenographia, sive Lunae descriptio. This book was a collection of all of his observations, and his most successful work. He outlined in the book how his work was unique from Galileo’s, and that Galileo’s research felt like something was missing. One of Hevelius’ greatest pieces was a map of the topography of the moon. He is also credited with discovering the Moon’s libration in longitude (the effect of its eccentric orbit around the Earth). His work was considered so strong that it survived as one of the bases of information about the Moon for over a century. Some of his names for certain features of the moon still survive today.

            He also made other contributions to astronomy. He invented and created the constellation Scutum. It was originally published in one of his books, which was mostly printed in his own home, and engraved by Hevelius himself. He discovered four comets that moved in a parabolic path, which led to the thesis that they revolved around the Sun.

            Johannes may not have as well-known a name as Galileo, but he made a lot of major contributions to astronomy that still survive to this day. He was a pioneer to the study of Lunar topography, and was quite the handyman in creating observing tools. He was a very well rounded individual who had great success as a brewer and an astronomer. Johannes Hevelius’ naked eye measurements showed just how great an astronomer he really was.

APOD 1.6

M8
The Lagoon Nebula, what a beautiful site. This is a picture taken from Hubble's ACS system, which can see a lot more light than just the visible spectrum, and then the spectra can then be analyzed, so color can then be given to the nebula. This is also referred to as the star forming nebula. The waves are created by hydrogen gas' interacting with the newly formed stars. This is only a small portion of the whole nebula, and the field of view is only 3 light years across. M8 of course lies in Sagittarius, but it helps to remember this fact when you have actually seen a picture of part of M8, and also the whole thing. All in all a very spectacular site, and it definitely makes me think once again about becoming an astronomer. The only thing keeping me from pursuing it is the job market.

Captain's Log 6: 6:30 A.M - 7:10 P.M. Wednesday, October 6, 2010

This observation was ascertained on my drive to school from South Venice.

The smallest crescent moon I have ever seen was visible this morning, and got to watch the transition of around 40 minutes of the Sun's rising changing the visibility of the dark portion of the moon. The time it takes me to get to school is truly a peak viewing period, because it is literally a time at which the Sun cannot be seen rising near the horizon, but eventually can be seen rising just over the horizon around 7:10. This time frame allowed me to see the moon go from easily being able to see the whole dark portion, to the dark portion slowly fading as the Sun rose, and eventually the moon's crescent was almost the only remnant of the moon left in the sky.

Captain's Log 5: 8:45 P.M. Tuesday, October 5, 2010

Observation ascertained from driveway in South Venice.

I got to see the Hubble Telescope for a brief period in heavy cloud cover. It was a miracle, one hole in the clouds allowed me to view the telescopes pass for a brief moment right before it disappeared. It was not as bright as an Iridium flare, but still very clearly visible.

Captains Log 4: 8:10 P.M. Monday, October 4, 2010

That Iridium Telescope flare, was really one of the most awesome things I have ever seen.
The magnitude of the flare was the brightest thing I've seen in the sky besides the sun and moon. Heck, the flare was brighter than the moon, just not nearly as well defined. So awesome, and has definitely impressed my dad.

APOD 1.5

Corona Australis
It is cool to see just how large the stars are on such a large photo. Even the densest part of the dust cloud is 8 light years long. The extremely hot stars of Corona Australis emit a blue glow that is somewhat scattered by the surrounding dust cloud. To the bottom left of the constellation is a star cluster, which is extremely awesome looking, it looks like a massive amount of stars are colliding to create a super-massive star. Overall a very full picture, and extremely beautiful. One thing about this photo makes me think though, just how large and how much dust is their in our galaxy, and what do they form? Guess that is knowledge to come as I take Astronomy.

Bibliography: Johannes Hevelius

Dictionary of Scientific Biography C. Gillispic, editor Charles Scribner's Sons 1981

"Johannes Hevelius." NNDB: Tracking the Entire World. Soylent Communications, 2010. Web. 01 Oct. 2010. <http://www.nndb.com/people/649/000096361/>.

"Johannes Hevelius (Polish Astronomer) -- Britannica Online Encyclopedia." Encyclopedia - Britannica Online Encyclopedia. Web. 14 Oct. 2010. <http://www.britannica.com/EBchecked/topic/264492/Johannes-Hevelius>.

"Modern Era (16-18th Century) - Selenographia by Johann Hevelius." Poland.pl. NASK, 2010. Web. 14 Oct. 2010. <http://www.poland.pl/archives/modernera/article,,id,269086.htm>.

APOD 1.4

This is a picture of Mars engulfed in a planet-wide dust storm.

Could you imagine, "Today, there is a 100% chance of blinding dust storms, stay inside folks", Or how about dust days, or seven inches of dust fell today.

Anyways, this picture above of the increasing dust storms makes me think, what if something like this happened to us, our entire planet covered in something like a hurricane. This is really quite disturbing that this can happen to a planet, that sometimes has quite a stable environment. These dust storms caused a problem that heated up its atmosphere, and drastically cooled the planet's surface. One reason that this was being watched so closely at the time was that NASA's Mars Odyssey was due to arrive only a week after the dust storm looked like the picture on the right at the top. What a harsh environment. It is so weird that a planet so close and quite a lot like ours could end up that way, especially with calm luscious Earth such a short distance away.

Captain's Log 3: 6:45 A.M.-7:10 A.M. Thursday, September 2010

This observation was collected while driving (safe) on Englewood Rd./Manasota Beach Rd. on the South Venice, Englewood border all the way to Pine View School.

The moon was as amazing and full as could be. The sun was rising in the east, and the moon was only getting more and more yellow. I have never actually watched a full moon set as the sun was rising like I did this morning on the way to school. Jupiter being at opposition could also be seen very clearly this morning, about 7 degrees away from the full moon, but faded out slowly as the sun approached the horizon.

Simply put I had a lot of fun looking up this morning. Did the people of old not see the dark spots on the Moon as being imperfections?

Captains Log 2: 6:30 A.M. Monday, September 20, 2010

This observation was taken from my driveway. The moon was in a waxing gibbous phase, and the light pollution from street lights and the moon. The moon was very clear in the sky, and rather cool looking in shape.

Orion could be seen pretty well, and really did not know much else to look for, because the moon was very bright, and blotted out a lot of the other stars.

APOD 1.3

Tycho's Supernova Remnant
I have never seen so many awesome colors in one thing in space. Apparently this is possible to see with the naked eye, but the problem is, with how much light pollution? This supernova originally discovered by Tycho Brahe, hence the name. This is an expanding bubble of hot gas that has a fluffy look, because a lot of the solar winds are different, and expand different parts at separate rates. This is an X-ray image, a infrared image, and a regular image all chocked together to make this beautiful image. I did not really know that pictures of space were developed this way until I read about this one.

Captain's Log 1: 6:25 A.M. Friday, September 10, 2010

This observation was taken from the end of my driveway. The best place to see the sky...

This morning, the moon was non existant. But, Jupiter was very bright in the western sky, as the Sun was rising in the eastern sky.

As for constellations, sadly the only one i could recognize was Orion, which was almost directly overhead.

APOD 1.2

MORNING GLORY CLOUDS
    Nobody truly knows what causes this meteorological phenomena, but it is known that they happen yearly in Northern Australia, especially over Burketown, a small town on the coast of the Gulf of Carpentaria. Some meteorologists believe it is a form of roll cloud, which is formed when storm fronts come into contact with advancing cold fronts, cooling the air and causing the cloud. Another thought for how these clouds could form is that cool flowing air hits an inversion layer, which is a large body of air that unlike usual parts of the world, increase in temperature as altitude increases. Very awesome clouds, wish they would roll over to Florida some time.

APOD 1.1

Thor's Helmet

 Named for its helmet like shape and its winged appendages, the bubble nebula like mass is a very awesome find. Thor's helmet is a star called a Wolf-Rayet star. This is a star that actually loses mass from its large solar winds. The loss of mass is a constant yearly loss, and it is what creates the bubble formed around the strong star. The star is thought to be near super nova, but it is hard to tell since the star is so many light years away (15,000). This can be found in the Canis-Major constellation.