Gemini

Do the names Castor and Pollux right any bells? The minor god twins who were immortalized in the night sky by their father Zeus? Well, it didn't for me until recently either. The stars Castor and Pollux did ring a bell, as I knew they were the two bright stars that are so close together that are thought to be twins. These stars are the basis of the northern sky constellation Gemini.

Gemini, or Latin for "twins", is often more widely known as an Astrological symbol for the people born during May 21 and June 20. The constellation was actually known before astrology claimed it. It was discovered by the 2nd century astronomer Ptolemy. Ptolemy discovered 44 of the modern 88 constellations that we know and recognize today.

The constellation Gemini is most easily found by first spotting the stars Castor and Pollux. The rest of the constellation is somewhat nondescript, which makes finding it somewhat challenging. Finding the constellation Taurus (which we will cover soon) will place you in the ball park for finding Gemini. Taurus can be found by looking east of Orion's Belt.
Star with Orion's Belt and move east, and you should find something like this below:

Happy stargazing!

December Moon Phases

I am sorry for being behind this month, but it is time for December's moon phase calendar. As I sit in my room and watch the small meteor shower outside of my window (most people call it snow), I think about how important the moon will be during this month. I shouldn't be silly though, as the next clear night, I'm heading back outside.

December moon phases

Now, I have a few interesting tidbits of knowledge for the fishermen and hunters reading this today. Did you know that the moon phase has an impact on hunting and fishing? If you are interested, please check out the links below!

Fishing by Moon Phase

Hunting by Moon Phase

Taking your own pictures of the stars

Have you ever looked at the beautiful pictures of the stars and thought, "That looks like a scene I saw one night!". I have on numerous occasions. It made me wish I had the capability to take pictures like those astronomers do. The great thing is, now a person like you and I can. All that is needed is a digital camera.

Check out this video from BBC Two. It will show you how to take pictures of planets, constellations, and so on, using digital cameras, and even webcams!
Another perk to this video: it is British. Awesome.
Enjoy, and start taking your own breathtaking pictures.
http://www.youtube.com/watch?v=g2pcXi1VL6Q

Canis Major

Remember the Orion's Belt navigation trick I mentioned in the Orion post? The first practical use for stargazing will be present in this post! Go back and find the star Sirius on the diagram, and make a note of the direction of it. The star Sirius is pretty easy to find, as it is the brightest star in the night sky. Period. No other star is brighter. Sirius is also known as the "Dog Star" as the the star is the center of the constellation Canis Major, or the Greater Dog.
See how Sirius makes up the foundation of the constellation?

Canis Major is closely following the constellation Orion, and is known to be one of his hunting dogs. This constellation should not be confused with Canis Minor, a very similar but smaller constellation. Part of the reason why Canis Major is easily spotted, aside from the star Sirius, is the absence of deep-sky objects in that sector of the sky. A deep-sky object is defined as a celestial body (like a galaxy, nebula or the like) that can be seen in the night sky with the naked eye.

Go out and try to use Orion's Belt to find Sirius and the rest of Canis Major. It is a good feeling when you get a hang of the it. This blog post also may have cleared up something for those of us who wondered why Sirius satellite radio's logo is a dog.

Orion

Do you recognize this? Can you see the bright stars illuminating the popular constellation that we all have heard of? The belt will hopefully give it away. Yes, we are talking about The Hunter, Orion. This is perhaps the highlight of the winter constellations.

Now, by finding the belt, we can fairly easily assemble the rest of the mighty hunter, but the belt is actually extremely useful for some other stargazing opportunities. I will use the Wikipedia article's way of explaining the navigation points it brings:
"Orion is very useful as an aid to locating other stars. By extending the line of the Belt southeastward, Sirius (α CMa) can be found; northwestward, Aldebaran (α Tau). A line eastward across the two shoulders indicates the direction of Procyon (α CMi). A line from Rigel through Betelgeuse points to Castor and Pollux (α Gem and β Gem). Additionally, Rigel is part of the Winter Circle. Sirius and Procyon, which may be located from Orion by following imaginary lines (see map), also are points in both the Winter Triangle and the Circle".

 

Keep this info in mind, as these stars will be reappearing in future posts about other articles. Being able to find and identify stars will help you find said constellations, and it will just make you look rather intelligent.

It is important to note that once you find Orion's belt, his torso is due north of the belt, legs south, shield west, and club east. This also makes the constellation helpful for navigation. Just scan the sky, and Orion's belt will stand out. Become familiar with Orion, and the winter sky will begin to unlock itself.

Winter Constellations

Love it or hate it, the winter months are now upon us. Now, this time of year has some great advantages if you are willing to endure the cold. It is one of the times of the year when the stars are most clear (please see my post about the cold air affecting the night sky), and the second half of the sky's constellations come into view.

For those that may not know, there are four groupings of constellations across the globe. There are the Northern Hemisphere summer and winter constellations, and the Southern Hemisphere summer and winter constellations. There are a few cross over constellations, but this is a way to help map out when and where a particular constellation will be visible.

In the next few weeks, we will be covering the Northern Hemisphere's winter constellations. Based upon my Northern Indiana geographical location, it makes sense to me. I apologize to any other readers, and I plan to get to the other sections soon. Northern Hemisphere friends, get ready for some great stargazing in the upcoming months. Below is a picture of the winter constellations. Get pumped!

Dear Earth, From Space

Life is all about perspective. When we look up into the sky, we perceive the bountiful wonders to be beautiful and serene, but have you wondered what space thinks about Earth? Would the stars look at the earth and think, "Wow, that is beautiful"? Maybe I am the only one who thinks about these things, but either way, I'll let you judge the answer to that after you watch the video below.

From the months of August to October, during 2011, the International Space Station had special low-light cameras trained on earth as the space station floated above us all. What it captured cannot be easily put into words. In the video, you can see thunderstorms, the Aurora Borealis, and numerous other fantastical things from the atmosphere. Talk about a different perspective. Check out this video, and hopefully, it will help us all see our planet as just as wonderful and beautiful as the universe around us.

Earth, Time Lapse View From Space

Asteroids

Outer Space is simply full of objects floating about endlessly. Stars, planets, meteorites, comets, and many more, but one yet remains. This next object closely resembles parts from each of the previously discussed topics. These are the "tiny planets", asteroids.

The Milky Way galaxy is full of these beings. Our solar system has hundreds flying about it, most between the Sun and Jupiter. Asteroids are mostly rock or metal, but the surface of each closely resembles the appearance of comets. They are often referred to as tiny planets due to their behavior. They, like planets, orbit the sun. Asteroids travel alone, and sometimes in asteroid belts. An asteroid belt is a massive grouping of asteroids that forms a semi-circle of asteroids that orbit together. It almost resembles a large cloud of rock.

In this picture, there is an asteroid (the left), the dwarf planet Ceres (center), and the Moon (right). Note how similar each one is to the other. Asteroids, in both behavior and appearance, truly are like tiny planets, just making their way in the night sky.

Comets

Back in the days of the Ancients, people looked to the sky for signs and guidance. The Greeks literally named this astral symbol "long-haired", based on the trail it etched across the evening light. This beautiful light; however, was not a welcome sign, as they believed it signified bad things to come. I am talking about the celestial beings know as comets.

Let's go back to the etymology (origins of the word's name) of comets. The names meaning "long-haired" is quite significant to the identification of a comet. The only discernible difference between comets and asteroids is the fact that comets have comas and tails. Now, what do I mean by this? Please note this picture below.

The super bright core is the comet itself, but the light aura surrounding the core is the "coma" and the trail following them is the "tail". These things form around the comet as its orbit brings it close to the sun. The solar wind and solar radiation cause these lights to appear as they take their toll on the comet.

Comets are usually giant orbs or ice, but can be dust or rock as well, sometimes mixtures of the three. There are over 4,000 known comets that can be seen from earth, and more are entering visible sight. There is about one that can be seen annually. Comets are usually more visually striking than their relatives the meteor and asteroid, but they are harder to find. They are worth the effort. I know I will not forget the first time I saw a comet. It really did look something like this:

Meteor Showers

Meteor showers are fantastic things. So many shooting stars in a single night, it is just a sight to behold. I must admit, growing up I had numerous misconceptions as to what a meteor shower was like. I hope to maybe clear some of those up for you all.

Please look closely at the picture at the top. Note how it looks like all of the meteors are centered around a specific center point. This is not an optical illusion, that is how meteor showers actually happen. There is one central location that the meteors stem from during a meteor shower. The meteors can still appear at almost any point in the sky, but they all come from the same point regardless. Most news places will notify you of the center point of the meteor shower before it happens. If you watch this point, you are far more likely to see the shooting stars.

Now, in multiple fictional depictions, meteor showers are a sudden, short burst of an army of stars. This is not the case in real life. Most meteor showers last for hours on end, with a shooting star visible maybe every few minutes or so. There will be many stars, but they will be spaced out over a period of time.

The next meteor shower is the Leonids shower that will start on November 17 (this Thursday), after midnight. It should be visible from any of the 48 mainland states. Use the info from this post, and go see some of the greatest sights the night has to offer. Be sure to have some wishes ready!

Meteors

Have you ever seen a shooting star? This misleading term does not mean that a star is moving across the sky. Stars are, in fact, quite stationary. What we are seeing are meteors. Meteors are actually the visible trails left by meteoroids. Meteors are seen when a meteoroid trails through the earth's mesosphere. The light comes from the burning of the meteoroid, due to friction, as it passes through the atmosphere.

It is a common misconception that a meteor is the solid mass that flies through space. The light trail is known as a meteor. The meteoroid is the solid mass that soars through the heavens. Meteoroids can be any size from a grain of sand to the size of a boulder, or even bigger. They are almost exclusively made of rock or metal, unlike comets (which we will discuss later). Here we see a meteoroid that landed in Argentina.

The next time you see a meteor, remember, that is just the light. What truly creates the majestic sight is space rock and interplanetary dust. At the bottom, is one of the most bright, brilliant meteors ever captured on photo.
Please feel free to continue to wish on them. I still will be.

Next Stargazing Locale near the Huntington Area!

Dear Stargazers, I have your next location for a great night of stargazing. This spot is pretty sweet during the day as well! It is the Hanging Rock near Andrews Indiana.

To get to this location, star by taking 24 West out until you reach the intersection of 24 and 105. At this point, take 105 South through the town of Andrews IN. It's a small, quaint town, but not much there to report really. After you pass through Andrews, you will eventually come across Division Road in the middle of some farm fields. Take this road west. You will know you are on the right road if you eventually pass by a Ballschmidt's Family Processing. Keep down this road, and follow it as it hits a T in the road. Turn right at the T, and once you finish a few twists of the road, you are there.

It is important to note that this land is owned by a private company, but they have the land open during the day time to the public for use. It is a fantastic area, please check it out. Attached below is a picture of the Hanging Rock. Image courtesy of www.fwdailynews.com.

Nebulae Series #4 Supernova Remnants

When a star's core fusion dies out from lack of fuel, the star sucks into itself until the force of it causes it to implode. This is a supernova. Sometimes, when a supernova occurs, the gases of the stars will be energized and propelled out into space, leaving charged gases in the place where the star used to be. This is a supernova remnant, a special type of diffuse nebula.

The Crab Nebula, seen above, is a popular supernova remnant. It even looks like part of an explosion frozen in time and space. Some of the light from these nebulae comes from ionized gas and x-rays, like the nebulae we discussed previously. This one does have a distinct distinguish-er though:  most of its light is created by radiation from the old star's core.

Nebulae Series #3 Protoplanetary Nebulae

The protoplanetary nebula (PPN) is an interesting variant on most nebulae. This one is actually part of a specific star's stellar evolution. As the same may suggest, it is also a precursor to the planetary nebulae.

During the stellar evolution, the star releases a huge amount of hydrogen into the surrounding sky. The hydrogen, as it is being released, forms a sort of shell around the star. Once this is complete, the PPN phase is in effect. The star core of the PPN fuels the light, creating the fantastically bright visuals that PPN are famous for. Attached below is the Egg Nebula, which is part of the constellation Cygnus, and is a PPN.

 Stellar winds are  responsible for the symmetrical shape of these nebulae. They remain this way until the core temperature of the star reaches about 30,000 degrees Kelvin. AT this point, the heat ionizes the hydrogen cloud, and the PPN becomes a planetary nebulae. Note the distinct symmetrical shape of the Red Rectangle nebula below.

Nebulae Series #2 Diffuse Nebulae

This is the Omega Nebula. It almost looks like a picture taken of the sky hear on Earth. This nebula is an example of our next type of nebula: the diffuse nebula.

The Diffuse nebulae are a collection of two subcategories of nebulae: the reflection and emission nebulae. This is, by far, the biggest category of nebulae in the universe. The term diffuse refers to a nebula with not specific shape or size. It essentially means it's just a massive cloud of gas and dust.

The classifications of emission and reflection refer to the way the nebulae shed their light. Emission nebulae contain ionized gases that create their light. Reflection nebulae produce hardly any light, but are largely visible by reflecting light from the stars. There is a subcategory of these as well known as dark nebulae. They do not produce loght at all, but are visible, and notable, by the fact that their darkness creates their visibility. The Horse Head Nebula, attached below, is a dark nebula. Note the distinct shape formed by the black.

Nebulae Series #1 Planetary Nebula

The first nebula we are going to investigate is the Planetary Nebula. The name of this nebula come from the early astronomers who first found them. They thought that their appearance closely resembled that of of the discs found on a planet, like the rings of Saturn.

Planetary nebulae are the most densely packed forms of nebulae. They are sometimes created when a white dwarf star forms. The formation energy of the star pushes the gases, mostly ionized hydrogen, out of the star itself. The gas forms what we see and know as the planetary nebula. The light of the star contributes to the glow of these beautiful clouds. Seen in the picture below is the Cat's Eye Nebula. This is one of the best known planetary nebulae.

Note the distinct rings around the center. Those rings are the ones that contributed to the name of this particular kind of nebulae.

Nebulae

Nebulae, in my opinion, are probably the most beautiful beings of the heavens. Just look at them! Below is one of the best known pictures of a nebula. This is the "Pillars of Creation" in the Eagle Nebula.

The term nebula comes from the Latin word for cloud. This is a suitable name for them for sure, as this is essentially what they are. A nebula is a big cloud of dust and ionized gas, usually something like hydrogen or helium. Now, who is this relevant to this blog? The first nebula to be discovered were spotted by the human eye back in the 900's. People thought they were dense clouds of stars. This blog also focuses on the beauty of the night sky, and these are simply beautiful.

Get excited as we begin a series on these gas giants.

November Moon Phases Chart

November is upon us! The nights are getting colder, and this means more vivid, clear stars in the sky. As always, the moon's light will play a factor. Check out the attached link so see the sky chart for this month.

How have you all been liking this blog so far? Please let me know if you have any comments, or questions for things I could cover in future posts. I'd love to answer questions if anyone had them. If not, I will just keep doing what I'm doing. I hope you all are enjoying it!

P.S. be ready for another series about some of the heavenly bodies of the night!

November Moon Phases Chart

Types of Stars Series #5 Supergiants

These stars occupy the class of the biggest stars known to mankind. Supergiants are up to 10 to 70 times the mass of our sun. This class is wide in definition and includes the biggest stars we know of, the Hypergiants

The massive size of the supergiants is their life, and their demise. Due to their size, they burn through hydrogen much more quickly than any other classification of star. This results in them having the shortest lives of any star, reaching only about 30 million years. Compared to the possible 30 trillion year lifespan of the Red Dwarf, this is a significantly younger star.

These stars burn through so much fuel and energy that they become incredibly unstable. Their massive size also leads to a relatively lower surface temperature per square mile than most stars. When so much star and instability begins to die, the massive amount of energy of the supergiant is catastrophic. The supernovae are so intense, the star is completely obliterated, and nothing remains of it.

Below is a picture of a supergiant star as it illuminates a cloud of dust that surrounds it.

Types of Stars Series #4 Neutron Stars

When a star runs out of fuel to burn, it implodes upon itself. This massive implosion of a star is a massive release of energy and gravity is known as a supernova. When a massive star supernovas, it creates a black hole. When a star that is only about 2 times the size of our sun supernovas, it leaves behind a core, and this remaining core is the Neutron Star.

The immense amount of gravity present when a supernova occurs creates this star core that we know as a Neutron Star. The star, as the name implies, is an incredibly dense core of almost entirely neutrons. Because of this, the core is essentially a giant nucleus like that of an atom. It is not held together by fusion like other stars, but solely by gravity. The Neutron Star is essentially a star basely solely on the ease of defining it as such.

Pictured below is the first sighting of a known neutron star. Note the distinct coloration difference from the rest of the stars in the sky.

Types of Stars Series #3 Red Dwarf

For our third star in this series, we are going to talk about the most common star in the Universe as a whole. I am talking about the Red Dwarf star.

Red Dwarfs are about half the mass of the sun, and burn at about half of the temperature. They burn very slowly, but very consistently. They are among the most steady burning stars we know of. Because they burn so lightly and slowly, they have an incredibly long life span. It is so long, in fact, it is the only star that we do not know what happens to over time. Every known Red Dwarf has been nothing but a Red Dwarf.

It is somewhat surprising that we can even see the light of the Red Dwarf. They, on average, burn at 10% of the luminosity of our sun. Almost all of the light from a Red Dwarf is released as infrared light. Due to the difficulty of capturing an image of a red dwarf, I could only find an artist's depiction of a Red Dwarf star.

Types of Stars Series #2 White Dwarf

The White Dwarf is the next classification of stars we will look at. It is one of smallest forms a star can have, and is thought to be the last phase of many star's lives.

The White Dwarf is a remaining core of a star that has burnt off most of its fuel and did not have the heat to reignite the core. The star is largely composed of electron-degenerate matter, which are electrons that cannot lose anymore energy. This leaves the White Dwarf to stay where it is, slowly cooling indefinitely until it becomes a Black Dwarf.

White Dwarfs are fairly common sights in the night sky. They look very similar to the most common star in our solar system, the Neutron Star. White Dwarfs have about the same density of the Sun and the same mass as the Earth.

Attached below is a picture of a White Dwarf. Note how this one has a much more spherical shape than that of the Red Giant. The stars featured below are Sirius A and B as seen from the Hubble Space Telescope.

Types of Stars Series #1 Red Giant

Stars come in a myriad of sizes, colors, and even shapes! Ok, by myriad, I really mean more like 7 major categories, but either way, we are going to begin a series of posts to discover more about them all.To begin, we are going to cover the Red Giant.

Despite the name, the red giant is actually a medium sized star. Red giants are known by their distinctly bright red color, and not fully spherical shape. Stars are formed and sustained by their gravity, and the burning of gases (which we shall cover later). The red giant begins in a much smaller size than it becomes. After it burns through its initial stock of hydrogen, it compacts, then reaches a layer of hydrogen within the star's core. The hydrogen then ignites, expanding the size of the star greatly. This also give the star its color and shape. Once this hydrogen is burnt up (this takes millions of years) the star shrinks into a White Dwarf star.

The most well known example of a Red Giant star is the star Mira. Note the distinct shape.

Cassiopeia

Can you spot the constellation in the image above? The name of the article is your hint. If you cannot, then look for the 5 bright stars that resemble a sideways W shape. That is the constellation Cassiopeia.

Cassiopeia is a Northern hemisphere constellation that is most easily seen during early November. Take note, this is coming up soon! The best way to find it is look in the opposite side of the sky from the Big Dipper. That is where she rests her head at night.

Cassiopeia is, in mythology, the Queen of Ethiopia and mother of Andromeda. Cassiopeia was beautiful, and very vain. She was punished by Poseidon and after her death, was sentenced to hang in the sky for half of the year. That is where the constellation comes in. It is her hanging in the sky for half of a year. To help better picture this, check out the image below.

This constellation makes me a little sad; however, becoming as beautiful as the stars is something to cherish.

Lunar Halo

This is one of the more peculiar sights one can see during stargazing. The first time I saw this, I swore I was imagining it, but when others saw it as well, I felt relieved. What am I speaking of? Well, a lunar halo of course!

In weather lore, these heavenly rings were taken as a sign of impending bad weather. Now, this is supported by scientific evidence. The lunar halo is formed by refraction of light off of ice in the atmosphere. This ice is the very thin, wispy cirrus clouds. These clouds are so high in the atmosphere they almost exclusively exist as ice. Cirrus clouds often precede rainy or snowy weather.

The light from the moon refracts off of the very thin ice of the cirrus cloud, it is bent to precisely 22 degrees. This bend is what makes the circle in the sky. This halo is formed in almost an identical fashion as a rainbow is. Lunar halos are more common in the winter months as the cold temperatures result in more icy clouds.

The next time you see one and think about how this night time rainbow is formed, also think about an umbrella in the next few days.

What's Up With Saturn's Rings?

Saturn's rings are a mystery to most of the human population. We all know they exist, despite them not being visible to the naked eye, but what makes them? Attached above is a picture showing the divides in in the rings orbiting Saturn.

We may know that the rings are made of frozen particles of dust that surround the planet, but that just makes the fact that they form rings more curious. Dust and ice, while on earth, do not form rings, so why would they in space? Well, science has the answer.

The rings are divided up into the A ring, B ring, and so on, all the way out until the farthest away ring, the Phoebe ring. In the space that makes the A or B rings into rings, we find Saturn's moons. The orbit of the moons creates the rings we see on Saturn! Look again at the picture above and see the gaps between the rings. Think about how a moon creates that gap. Those rings must be massive! How great is the art of the universe. God is good.

There is still much to be learned about Saturn's rings, like how the outermost ring is formed (no moon is yet found for that ring). Either way, they are one of the most interesting and beautiful sights to be seen in our solar system.

This is my video book review for my Social Media class. If you all think I should do more videos, please let me know. This is a class project so not too related to my blog topic, but this is still an interesting book. It can help to give you some ideas for your own blog!

Why Do Stars Twinkle?

"Twinkle, twinkle, little star." We all know how the song goes, but do we really know what the song is talking about? Do the stars really twinkle?

Scintillation is the technical term for the phenomenon we know as "twinkling". True twinkling is the oscillation of light from its source that makes it appear to be shaking or shifting. Stars are burning orbs of gas that send light from light years away through space to our humble planet. Once it makes it to our planet, it must pass through the atmosphere as well. As it passes through the atmosphere, it goes through layers of air turbulence that distort our image of the light from the stars. This is what results in what we know as the twinkle of the stars.

This explains how on certain nights the stars seem still, while on others they twinkle. Depending on the air currents of the particular night, you may have either effect. Either way, you are seeing the same light, but one with more distortion than the other. Refraction also plays into this as well, which is why the tiny stars always seem to twinkle. The longer the distance from earth, the less light will get here. The less light, the easier to distort.

This brings us to another interesting point, planets almost never twinkle. This is because they are so much closer to the earth than stars are, therefore; it take immense amounts of turbulence to distort their light.

I am almost sad to publish this post. I hate ruining children's songs for people. Oh well, it's for science, I suppose.

October Moon Phases Chart and Cold Air Effects

http://www.moonconnection.com/moon_phases_calendar.phtml
Above is the calendar of the moon phases for the month of October.

Something interesting to note is how the colder air effects the stargazing experience. Light pollution and air pollution both effect our ability to see the stars above. The effects of this are more prominent during the winter as cold air is more dense than hot air. Because of this, light sources appear more bright in cold than in warm air.

This plays out in two ways. The the first sense, light pollution is a bigger concern as the air gets cooler. On the other side, the cool air means the starlight will appear brighter to us here on earth. If you have wondered if the stars are brighter in the winter, you are right. Well, they are least appear to be brighter.

Get ready to bust out some sweatshirts because some of the best stargazing times are now upon us!

Micah

Ursa Major

Latin for, "Larger Bear", Ursa Major is one of the biggest and most easily seen constellations in the Northern Hemisphere. It can be seen almost year round in the Northern Hemisphere, with April being the best month to see it.

The brightest seven stars in the constellation is actually another, more well know constellation. The Big Dipper makes up the back of this great bear. This is the easiest way to locate him in the sky. If you can find the big dipper or the little dipper, just follow them to the bear. Down below is a diagram of the constellation to help you become familiar with the way it looks.

One of the few star groups mentioned in the Bible (Job 9:9; 38:32; Amos 5:8—Orion and the Pleiades being others), Ursa Major was also pictured as a bear by the Jewish peoples. ("The Bear" was translated as "Arcturus" in the Vulgate and it persisted in the KJV.) Not only mentioned in the Bible, this constellation has roots in the mythos in Iriquios, Hindu, Finnish, Greek, and Burmese civilizations. This is one of the best-known constellations world-wide. It truly is a sight to behold in the night sky.

The North Star

Polaris, Lodestar, the Pole Star, or whatever you know it by, the North Star is an important part of stargazing. Since the early days of recorded history, Polaris has been watched on a nightly basis by nearly everyone. It gives bearing to sailors lost at sea, travelers find their way east, and is even possibly used by animals as a source of navigation. The reason it can be used for such things is how close it lies on the north celestial pole. It is easily spotted by it's bright light, how it nearly never moves from the same place, and by it being a part of the Ursa Major constellation.

The North star is actually a star cluster. Seven different stars, at different distances from the earth, are close enough together that they look like one big star. It is also interesting to note that due to the procession of the earth's equinoxes, the North Star will not always be the northernmost star. Bear in mind that this will take an incredible amount of time to come to pass, so we can safely trust it being the North Star during our lives.

This is a great star to get used to finding. You never know when you may need to find it in the night sky to catch your bearings!

Micah

This image is a time-lapse shot showing how stars revolve around Polaris while it stays in the same central location.

The Moon

http://www.moonconnection.com/moon-september-2011.phtmlThis is a moon phases chart for the month of September. I will be posting the current month's moon phase chart each month.

The moon is, by far, the most prominent sight in the night sky. A full moon cycle takes about 28 days from new moon (where the moon is not visible) to new moon again. On some nights, the moon is the most beautiful sight to be seen. I am personally a huge fan of the thin crescent moon.

The moon can be a huge factor in stargazing. The moon is a big, unavoidable light source that does take away form the number of stars that can be seen. The bigger the moon, the more light it reflects to earth. If your only goal is to see the stars, or other celestial bodies, try and go on a night with the smallest moon as possible. The new moon phase will reveal a night of more stars than you can count. The full moon reveals only a handful of stars, but the moon is a sight to behold. Please take the time to really appreciate both for the beauty they each are.

P.s. the next new moon is Sept. 27, or this Tuesday. Take advantage of it!

Micah

Huntington University Location Tip

Here is the first stargazing location tip for you all! This spot is great for a HU student looking to get away or stargaze with some friends. As a general rule of thumb for any stargazers, never trespass on someone's property. The stars are not worth going to jail for.

Now, this location can be easily walked to in about 7 minutes from the dorms on campus. To get there, walk around the lake until you reach the entrance of the campus that is on the backside of Lake Snotip. Walk out past the sign as though you were heading to the YMCA or Parkview Hospital. Turn right onto Gragg street and keep going forward. On your left will be a field with a gate for an entrance. This is the Huntington University Cross Country field. Being a student at HU means you are ok to be here. This location is not perfect, as the campus and hospital will result in a little light pollution, but it is the best location short of driving somewhere. Give it a shot on the next clear night in Huntington, and give me some feedback.

More locations to come soon! Stay posted! I hope you enjoy this spot!

Micah

Lastest Pics from NASA

These pictures are some of them most recently taken pictures by NASA. Check out the splendor of the universe.
http://www.foxnews.com/slideshow/scitech/2011/08/03/spaceshots-best-new-photos-our-universe/#slide=40

Light Pollution

This is a picture taken from space showing the prominent light sources of the eastern side of the United States. Yes, our lights on earth are indeed bright enough to be seen from space! The topic today is the biggest stumbling block to good stargazing (other than clouds) that one can face: light pollution. This post will cover the light pollution that occurs outside on a starry night, and not the kind that can happen indoors.

Air, being made up of molecules, is not perfectly transparent like we believe it to be. Light works by reflecting off of a surface, and our eyes pick up that reflection. Even on a dark night, the molecules in the air and the atmosphere surrounding the earth will reflect the light emitted by anything. Any extra light will make it harder to see the stars in the sky. The more lights you are around, the less stars will be visible. The rather bright spots on the map above are areas where cities are located. You can see the difference in light emissions from a city to the country.

The best places to see stars is away from any light. The countryside is always optimal stargazing country. Even if there is a little light, however; it will not ruin your whole experience. A place I frequently stargaze is not far from a small city, yet plenty of stars are still visible. City dwellers, there is always hope! A short drive out into the country is usually enough to eliminate most glare from city light as well. If you are diligent, you can always find a good place to stargaze, just be wary of light pollution.

Northern Indiana Sky Map

http://homepage.mac.com/graphicad1/theFWAS/Charts/FallConstellation.pdf
The link above is to a printable chart of constellations viewable from the Fort Wayne, IN region. It is specific to the Autumn months. Please check it out as it can really help to find constellations that are usually a little tricky to find.

Sky maps are a very neat thing. They show the placements of constellations and prominent stars in the sky as well as approximate times to see them best. If you really want to get a little more serious about finding constellations, get some sky maps. You can find them for nearly any region you can imagine, and you can get ones specific to the time of year you are stargazing.

The above sky map is tailored to a specific stargazing spot (which is a nice one) but this map can be used from any other location. If you bring a compass, this sky map can be used anywhere in the Northern Indiana region in the exact same fashion as if you were at the stargazing site indicated on the chart. Try printing this out and carry it with you the next time you can see some stars. You will be amazed at how many constellations you can find.

Micah

Dusk Settles

Hello all!
My name is Micah, and I spend a good part of my life at night walking around and exploring. For what, you may ask? Usually for places to see the stars! I can see God most clearly in a starry sky.
My purpose and hopes for this blog are simple really.

1. Share good stargazing spots with people in the Huntington IN area
2. Give people information about constellations, planets, and where/how to see them at night.
3. Instill some of my love of the sky in my reader's lives.

I am optimistic about the potential of this blog. If anyone has any feedback or thoughts I'd love to hear them, and will maybe post them as well! I plan to initially update this blog a few times a week so check back often!

God Bless,

Micah J Christensen