Closing Up The Universe

The universe is a magnificent place full of more that we could ever imagine. As for now though this blog will no longer be covering the news and ideas of the cosmos.

There is a lot to be learned from the world around us especially from space, unfortunately it seems not to be a goal of many of the current governments of the world, the risk is just too much for many and the foresight is lacking.

It is improbable that in the near future the idea of space exploration will advance much beyond where it is currently, still there is hope. There still seems to be a secret lust for space, a support of the planets. When Pluto was stripped of its planethood suddenly it became a meme within the mind of society, maybe the arrival of New Horizons in 2015 will strike a chord within the hearts of the world, but who knows.

We do have the resources in space right now to learn a lot, Kepler still runs, we have satellites heading off to other worlds, and soon the James Webb will be sent up to outshine the fledgling Hubble.

It will take many years of work for science enthusiasts and communicators to bring the wave of information that is approaching to the level of the public, but hopefully when it happens, we will see a new renaissance in the space sciences.

May the stars shine brightly in your skies!

Here's To Reason! (and not economics)

     So I was browsing my favorite webcomics this evening when I cam across the newest xkcd.

     It is a sad but true reality, the age of human space exploration is slowly dying off. Sure we have people up on the ISS, but what does that fully count for, that not as much exploration as it is experimentation.

     For those who have not messed around on xkcd ever, one of the features of the site is rollover text so I will just write it out here: "The universe is probably littered with one-planet graves of cultures which made the sensible economic decision that there's no good reason to go into space -- each discovered, studied, and remembered by the ones who made the irrational decision."

Let that sink in.

     I recognize that economic viability is smart to a degree, but what should it matter in the long run, think on a personal level, would you rather exist alone with money or would you rather have slight financial problems but have friends, fun , and constant potential for exploration.

May the stars shine brightly in your skies.

A Little Outside The Realm Of Space Science

     Being a late night enthusiast not by choice but by my existence as a college student, I tend to catch a lot of fun stuff on late night television (yes I am old school and do watch television). I don't know why I neglected to mention the Late Late Show with Craig Ferguson on the night of February 11 in this blog, but upon being reminded of it by Phil Plait of BadAstronomy, as this is also a science communication blog I have decided to bring it up here.

     This interview with Jennifer Ouelette is positive fantastic as she has devoted her life at this point to communicating science on an understandable and interesting level, particularly by framing the perspective to gain interest. What is even more commendable is her position as a non-scientist communicating to other non-scientists. I have read a bit of her book The Calculus Diaries and I am glad that the world can have communicators like her.
     It is also important that as scientists and engineers we support and learn from people like Ouelette. To us what we research and pursue is interesting and to be honest, if somebody came up to me and said that they didn't see what was so cool about space, I would have a big problem approaching them.

Funky Worlds Within Our Own system

     It is easy to imagine worlds within our solar system as having at least some similarities to Earth. All planets have a gravitational field and would have some breath-taking vistas. Then there are some differences that are small, every planet with an atmosphere is capable of carrying sound, though each has their own different range due to atmospheric density.
     Where the study of planetary sciences gets fun is where the big differences come out, especially on the Pandora's box of weirdness, Saturn. Our ringed planet has already been discovered to have some cool features including continuous auroras and crazy storms.

It is truly a beautiful planet.

     Now on to features that Saturn has that no other planet has. Due to its spin, Saturn has a hexagonal storm at its North Pole (the answer to why has been solved hopefully) which along with those auroras probably makes for one of the most stunning sights in the whole universe.
     Still the planet gets weirder. Recently it was discovered that Saturn has an electron beam link between it and the icy moon of Enceladus. While it is not unheard of for planets to have some link with their moons (in Jupiter it happens all the time), to my knowledge electron beams are pretty much a new thing in the realm of Saturn. So far how they think it happens is the result of ice geysers on the south pole of Enceladus (why these happen is a much deeper mystery in planetary heat flow). When they eject the ice particles into the thin atmosphere, they become electrically charged creating an ionosphere. With the motion on Enceladus plus this ionosphere through the magnetic field of Saturn comes an electromagnetic reaction, which in this case is an electron beam.
     Not only is the universe filled with mysteries and elegant solutions, our own Solar System can unveil these as well. I sincerely doubt that this will be the last we hear from the gem of the Solar System.

Rocket Wednesday: Spaceships in Films

Other than a lucky few who actually have seen a spacecraft in person, the only outlet that people get to experience a spacecraft close up is in the movies. From the terrifying Star Destroyers of the Star Wars universe to the sleek agile Federation ships of Star Trek there are quite a variety of ships presented within movies.

The ships presented in this jocund analysis are "feasible" in that they are based around a real propulsion method so here we go.

so many ships to choose from, so little time

(rest after the break)

Astronomy Fact of the Week: The Beginning of Human Spaceflight.

     This past week was dominated by space history. It was 50 years ago last Tuesday that Yuri Gagarin became the first man to reach Earth orbit. 30 years ago on that same day, Columbia became the first Space Shuttle to leave the atmosphere, and 41 years ago on Thursday, a oxygen tank failure nearly left Apollo 13 lost to the stars. While these three events were powerful, each had its own ramifications. Gagarin died young in a jet crash, Columbia became one of the tragedies of the United States space program, and, though it made it back safely, Apollo 13 called to question some of the equipment and techniques of the day.
     Space is dangerous, and not just on a large sense, but even very locally. When humans first escape out to the stars, they do not need to worry about supernovae or black holes just yet. There are much more immediate concerns, such as cosmic radiation, solar flares, and micrometeorite impacts. The smallest overlooked variable may be the downfall of countless years of research and development. So why would humans want to go to space? Where is the reward for all of the risk and work? For each individual this may be different, but perhaps as Carl Sagan said, “Exploration is in our nature; we began as wanderers and we are wanderers still.”
     Space holds a vast array of discoveries, wonders, and resources, and while Earth has these as well, some day it will run out. If the human species is around at that time, it will be of utmost necessity that we strike out for the cosmos. Why wait for the fateful day when the Earth can no longer provide? Our planet is beautiful, and would it not be better to preserve its beauty than to rob it of everything before moving on?
     Along with crucial elements for our survival, space may hold something else, life. It is highly unlikely that we are alone in the universe, and the benefit that could come from a sharing of knowledge between two different forms of life that have two entirely different histories could be astounding. That knowledge may be just what is needed for humans to make it to the end of everything, to those last moments of the universe.
May the stars shine brightly in your skies.

Sizing Up The Universe

     One element of space exploration that still amazes me is the relative positions of all of the stars. From here on Earth it is relatively hard to determine the depth of space, but through a bit of simulation magic, we can see that it is hardly a sheet with holes poked in it as the Greeks once thought.

Part I in which it was a cloudy night and I couldn't do much.

Part II in which I went to my computer and made magic happen.

May the stars shine brightly in your skies.

Just A Few Awesome Minutes of Your Time

So I found this video while surfing the web today, unfortunately it is not a youtube video so you will have to follow this link. It is fully worth your time.

May the stars shine brightly in your skies!

Rocket Wednesday: Rockets Of The (Close) Future

     This week has proven very timely for rocket Wednesday with the announcement of the new rocket from Space X. While the era of Saturn Vs and N1s was awesome and produced some of the most powerful machinery ever conceived, these day the race to space is being dominated by companies rather than governments.
     Of particular interest is the company Space X, so far in their history they have successfully tested several rockets including the Falcon 1 and Falcon 9 which may go into use fairly soon. they have also developed capsules that can carry human beings. Still up until recently the heavy lifting class of rockets was untouched by corporate entities.
      That is until now, meet the Falcon Heavy

tip of the hat to Bad Astronomy

     The Falcon Heavy is a revolutionary rocket that significantly out-classes every modern rocket. It is capable of lifting 53 metric tons (or half of a blue whale according to wolfram alpha) and is remarkably cheaper than any other option. With the Falcon Heavy you can put objects up at a price of only $1000/pound which is, for comparison, 1/10th of the price for lift on the Space Shuttle.
     It is a chemical based rocket that functions a bit like the space shuttle during launch. It will launch with the full body and will then eject the two side pods at a certain altitude leaving only the central rocket to keep going. An animation can be seen at their site (along with videos of some of their other launches).
     Rockets like the Falcon Heavy will serve an important role as the key beginning rockets for the next generation of private space ventures.
     May the stars shine brightly in your skies!

Rocket Wednesday

     In a curse of irony, last time I had a rocket Wednesday I mentioned that I would cover nuclear powered rockets and at the time of this writing, the future nuclear landscape has changed drastically due to the events in Japan (which I covered in an earlier post). Still as an important possibility in propelling starships, nuclear still is an important option to consider and is worth looking in to.
     While there are many different varieties of nuclear propulsion available to starships, one of the more fascinating is nuclear pulse propulsion. The concept of driving a ship with nuclear based technology is not new and dates back into the WWII era, but by far one of the more interesting ideas came out of the 70's. Project Daedalus was a British plan to build the first interstellar ship with the intent of reaching the stars within a life time.

  
     By feeding nuclear pellets into a laser reactor, a plasma explosion could be generated which could slowly accelerate a ship. While there was no plan to slow down Project Daedalus, it would be theoretically capable of reachin other stars. The intended target of the project was the fast-moving Bernard's star (since we know its speed precisely and over the lightyears of travel, all stars would also move due to time) and though the original speeds would be comparatively small, after 50 years of accelerating slowly, it would be moving quite fast.
     One major problem that would be encountered by an astronaut on such a vessel would be acceleration. While it is feasible to build such a ship, the human body can only withstand a certain amount of force and it could get quite tedious to live an entire lifetime feeling several G's of force always pulling on you. A nuclear derived thrust system could be designed to accelerate only at a moderate amount, and though it would take longer for a ship to get to its destination, the astronauts on board would be feeling significantly better about their situation.
     Next week we will look at other options for exploration and the ships that could be used to get there.
May the stars shine bright in your skies!
tip of the hat to the wikipedia spacecraft propulsion page and also to whoever finds flaws in this, I am not the best at nuclear technology

A Perspective From Kepler

     First off I am going to make a recommendation. If you like all this cool space stuff and you like seeing a cool new space picture every day make Astronomy Picture of the Day (APOD) one of your bookmarks. Not only does it have a cool new image every day it generally gives a little bit of the history and science behind the picture.
     Today's picture was quite a surprise especially for an aspiring planetary scientist like myself.

     The above image is a comparison of a number of the stars that Kepler found possible planets around. Each disc is of course a star while the little black dots are the approximate size of the planets found around each star. That smaller disc slightly below the right side of the first row is our sun with the black dot representing Jupiter though if you want to go and see the image on the APOD site, you can see a very small dot representing Earth, its very cool.
     The remarkable insight gained from this picture is the shear number of planets that have been found. these of course are mostly the larger planets, smaller ones may be hiding in their systems and would be too small to detect with our current level of technology. Also remember that this is just a small sample size in comparison to our own galaxy; there are many more stars with planets around them in our grasp. Who knows, one of these little black dots may hold life, its a distinct possibility.
     Even as our own planet loses its uniqueness in the universe, the universe itself, of which we are a distinct part, grows grater and greater with every passing moment.

May the stars shine brightly in your skies!

The Universe Is Truly Beautiful

     By far the coolest part about studying the space sciences are the images that come out of our vast array of satellites. The following picture is from the Spitzer Space Telescope and is of the center of our home galaxy in the infrared spectrum.

tip of the hat to NASA on this one

     As humans we are used to perceiving objects in the visible light spectrum. While this is a handy realm of light, visible light has a very hard time passing through the immense dust clouds that dot the galaxy and thus, we have a hard time capturing images of the densest parts of the universe. Thanks to Spitzer, we can image some of these places outside the realm of visible light and thus can see through these unfortunate dust clouds.

I Have A New Tool!

     So to better improve certain elements of this blog I have obtained a new tool to better attempt to illustrate some of the basic concepts of extra-solar activity along with other fun stuff such as asteroid impacts and satellite paths. There is a wonderful program called Universe Sandbox (which you can download the demo of here). the system acts as a modeling program for gravitational situations such as planetary orbits and collisions.
     A program like this can be extremely useful in illustrating certain concepts such as how a large body on the outside of our solar system would wreck havoc on certain inner system features (its not pretty) or what would happen if you put another Earth on the other side of our orbit (fun stuff, but generally little to no consequence). It also has some fun additions such as seeing how certain rings would act in orbit around Earth. currently I am working on a way of illustrating these models in case the sources I have don't have good images or display the system poorly from the perspective of a amateur to the field.

Hyping Up The Science

     Following the recent earthquake and resulting tsunami and then resulting nuclear emergency in Japan these last few days I have noticed quite a bit about how different organizations portray the state of crisis in an emergency. To set the tone of this post, I began watching the BBC live feed about one hour after the earthquake hit, though I was aware of it slightly after the tsunami hit.
     For the most part the BBC did not get very sensationalist about the disaster, and while they sure did love showing the footage of the tsunami rushing over the farmland, so did every other news network. What shocked me was the downplay of the deathtoll. Unlike other networks the BBC clearly stated how many were known to be dead and specifically separated that from the amount missing. Also shocking for me personally as an American viewer was the presence of a science correspondent who directly interacted with the anchor of the news program and informed of the science and geology behind the quake; they were unafraid to wake up a geophysicist here and there and did not restrict their sources to UK based organizations.
     While I did not observe much in the way of CNN, Fox, or MSNBC, I did also keep up with the Al Jazeera feed which was reliable as it moves into the realm of globally respected news networks. From my understanding the American networks did not have as much of the science adequately portrayed and focused more on the shock and the disaster at hand while more estimating a death toll, it was only after a few hours in that the BBC began to ask for estimated deaths and as of 1:07 PM on the 12th, they still have yet to estimate an economic loss.
     The best example of hype has focused more around the Fukushima nuclear facility. It is known that the cooling system failed and the Japanese government was forced to vent gas from the facility to prevent a meltdown. Beyond that different sources put it in varying lights. I personally was woken up this morning to be told that the entire facility had exploded including the containment, though I am unsure of where my personal source had got their fears. I quickly jumped on the web and was regaled with articles stating one of the reactors had experienced meltdown, that Japan was at a true risk of a Chernobyl style disaster, or as it really is, a building had exploded, but mostly everything would turn up alright, less than a Three-Mile Island.
     At this point I am still seeing these sensationalist phrases such as "Japanese Nuclear Reactor Explodes" which have half-truths in them and are baiting everybody. I watched a basic social media post turn into an all out verbal brawl over nuclear power's safety with the person against power citing articles at this point have been deem to solely be sensationalist without a fact around. Even my grand scientific network of BBC has been running sensational claims in the ticker, though the main stories are generally reliable.
     My personal fear about these sensational claims is though they do attract the world to this remarkable disaster, they also polarize people before they can make their decisions themselves. This disaster has happened at an interesting time in the energy community. Nuclear power has begun to regain stride as a possible alternative and it would be unfortunate to see it quelled again. We must remember this plant is mostly under control, it is better than Three-Mile was and not to mention it was an 8.9 earthquake followed immediately by a tsunami. The other plants in the network have been fine, they worked as they were meant to and they still have a strong future ahead of them. Lets not chicken out now.

Rocket Wednesday

     Though today is the final landing of Space Shuttle Discovery, I will not be focusing on it other than saying that it landed safely and cutting off the program here is halting an expensive but extremely useful asset in space research.
     No, what I am going to discuss is propulsion methods, or more precisely, Solar Sails. There are a variety of different propulsion methods in space from the currently used chemical propellants, to the more futuristic electrical, to the somewhat controversial nuclear option, and a variety of strange methods including the innovative solar sails.

We have come full circle in a way

     Contrary to what logic would dictate, space has wind, its just not exactly as it is here on Earth. When you are around a star, there is generally a very strong supply of photons heading out from the star (and by generally I mean always.) We observe this stream as light, but strangely enough though these particles theoretically have no mass, they hold a momentum and if they run up against an object, they can impart that momentum into the object. With enough photons bombarding a surface, especially if it is made to catch that momentum, and object should be able to theoretically move in space and gain up momentum, kinda like a sail on a sailing vessel would catch the winds momentum (physicists I know this isn't exactly true, it just works out).
      The sail will of course be attached to a satellite or a ship and will be retracted when the ship moves out of the path of the photon movement, thus it keeps up the momentum. The pros of the propulsion method is that it  requires no fuel and it can work over a fairly extensive range. The cons on the other hand are that it only works going outwards, for now at least, and that it is extremely delicate. Recently the first one was tried out and their main concern was that it wouldn't unfurl without tearing. Luckily it worked out.

May the stars shine brightly in your skies and check back next week for the nuclear option!

Is There Life Out There Or Are We Just The Stars Of A Lonely Party

     First off I would like to apologize for a lack of updates recently, some personal issues came up and I have had a hard time keeping a regular schedule.
     Nonetheless I had to poke my head up when the blogosphere erupted over news from the Journal of Cosmology. According to the Journal, Dr. Richard Hoover of NASA has stated that there is a chance that a meteorite that he was looking at has fossilized alien life. Pretty cool eh?

Hello there neighbor?

     Still, there are problems with this and I will lay them down:

1. There is always risk of contamination, according to the article it is not a solid chunk of meteor, its fractured, and on top of that it didn't fall in some desolate wasteland, like Antarctica, where there is little in the way of life to crawl in, it fell in Africa, which is teeming with life.
2. There is a chance that it isn't even life at all, there is much in the universe that looks like life but really isn't. I have looked at rocks which look like it has tracks, but these were just results of wind or tides. While these have a high carbon content which is promising, carbon is not solely unique to the kingdom of life.
3. SPACE IS BIG and life is small. If you took a sample of Earth right now, yes it would likely have something like a piece of pollen, but go back a couple hundred million years, which is the maximum extent that life in our Solar system has got if it were to exist, and your probability of finding something drops down to around zero.
4. Its happened before. We are constantly looking for life and getting duped. See 3 for why

     Do I hope that this is actually life? I do, I really do, it would just about be the most important scientific discovery of my lifetime were it to happen, this is my Higgs boson. I am not on the other hand holding any expectations of these claims, there is just too low a chance and too large a contamination ability.

     It would be cool though eh?

May the stars shine brightly in your skies.

Astro Fact: The Truth About Shooting Stars

     Once upon a time a wise animated cricket said something to do about dreams coming true and shooting stars, or maybe those were just immobile stars, oh well. Still when a shooting star passes overhead there is a mix of awe and fascination which is shocking for an event that lasts less than a second.
     If I were to ask how large a shooting star is, I image from experience that the range of size would be between the size of a small washing machine and a decent car; the truth on the other hand is significantly more brilliant given the effect. for the most part a normal shooting star is between the size of a letter in this article to at most the size of a golf ball. Shocking then is it that such a small object can give off such a large amount of light? Not really...
     When an object begins to fall into the atmosphere, it begins rubbing against atmospheric particles and while there aren't many atmospheric particles, the objects are moving very fast. Incredibly fast! That speed equals friction and that friction brings about heat and that heat messes with the external skin of the falling rock and that in turn emits a whole lot of light, for a second at least.
     For the most part these dust bits fall to Earth like snow but every once in a while one will fall down and impact, or at least get close to impacting. For the most part these rocks are fairly loose and they explode before they hit the ground, hence blast craters. Occasionally one will be harder and thus we get meteorites which can unveil the history of the solar system.
     Sometimes they also just pass through, say hello and go on their merry way, like the famous Grand Tetons Meteor of 1972.

May the stars shine brightly in your skies!

The One Where I Start Talking About Rockets

     Scientists can hypothesize as much as they want about what planets may lay outside our home, we can dream of lush worlds like Pandora from Avatar, desert wastelands like Tatooine from Star Wars, or intellectual paradises like Gallifrey from Dr. Who; none of it really matters much though if we have no means of making it to those places. While the news media is filled with talk of nearly Earth-sized planets being found, very few reports focus on the future of rocketry and space transport.

     Don't get me wrong, we have made some huge strides in how we get from the surface world up to space, the Saturn V rocket was a spectacular feat of human engineering. Still these can get us to the Moon, our nearest neighbor with a small price tag of 40 or so billion dollars for development and launch, 50-80 if you include everything to do with the program. Currently our main workhorse for human transport is the Space Shuttle, which as of writing, is nearly done with. While the Space Shuttle is advanced, its the equivalent of a shallow water barge when compared to the technology required for deep space travel.

pretty, yes, meant to handle the tortures of deep space, not at all

     On the other hand we have a vast array of launch vehicles not compatible with human flight. While most of these push small satellites up to the edge of space, a few of them have delivered payloads that are well outside the bounds of the traditional solar system. These, while fast, are impractical for humans, they are too small and they accelerate fast enough to turn your average astronaut into a splatter. So we need something that is reliable, like a Space Shuttle or Saturn V, or dare I say it, Buran Shuttle, but also meant for deep space, like one of Lockheed's army of rockets.

yes, the Russians had a shuttle, and admittedly, it was significantly cooler than ours

     There have been many designs proposed, such as attachments to the now cancelled Constellation program, but none have come to an actual building phase, which is unfortunate.

     So now comes my opinion; I feel we need space docks, we will never be able to make a ship that can truly efficiently and safely cross the vast distances (and times, see last astro fact) here on Earth, it will just waste too much material to leave the planet and theres a large risk at that point, especially with the cost and complexity of a ship like that. So we make a port in space where we can build ships from materials sent up from the Earth (or the moon, it costs less fuel) and we have no risk of a problem on launch, we use cheaper rockets to transport, and then when we take off, we send the astronauts up and board them in space, sure there is now crowning launch moment like what defined the Apollo program, but it is a significantly smaller risk.

     To keep people coming back, I will add a cliff hanger. Next time around on Rocket Wednesday I will discuss some rocket types that we could use efficiently in space and some of the problems associated with human space travel. See you back here then.

May the stars shine brightly in your skies!

Astro Fact: Cosmic Time

     From the reference point of a human being here on Earth, space and time are pretty much independent of each other, when a world class runner competes they don't have any adjustments to make for the percentage of the speed of light the runner is going, nor any amount of gravitational anomaly or possible black holes interfering with data. In space, this is not the case as much.

This guy may have some problems with relativity though.

     Within the realms of deep space, almost everything that we care about moves fast and that can cause some problems with timing. For instance light moves incredibly fast, by the time you  have read this light could have made it to the moon and back a few times. While the moon is not all that far away at around 384400 km, when we send satellites out to the edges of the solar system (such as the Voyager probes and New Horizons) there can be significant signal delay as the message rushes its way out at the speed of light.
     In even deeper space when we see the stars we are actually looking into the past. For stars nearby this is not much of a problem, the Centauri system is only around 4.3 lightyears away, not all that far when compared to the millions of light years to other galaxies or the billions of light years out to the edge of the ever expanding universe. Still, these vast amounts of time and distance can cause problems especially when it comes to knowing exactly where and when and object is. Some day if we are to venture out beyond the reaches of our home system, communicating home will be very difficult unless we can break physics, which is unlikely.
     Even more bizarre is the idea that not only are deep space objects truly in a different location due to time, but our perspective of where they were at that time may be off due to gravity. Everybody has heard from a young age that black holes can bring in light, but what about the light that doesn't fall in? It turns out that this light can bend around a black hole (in fact it doesn't necessarily have to be a black hole, it can be just about any massive and heavy object such as a galactic cluster). When observed here on Earth, astronomers see this effect as a lensing of background objects.

     Each of those thin bent streams of light is actually a normal shaped galaxy somewhere behind the massive cluster in the foreground.
     So when it comes to space, you cannot simply ask "how far away is it" you must also remember that what we are seeing is a dynamic view of the past.

May the stars shine brightly in your skies.

A Baby In The Cosmic Basket

     When it comes to human experience in the cosmos, we have begun to accumulate a wide base of knowledge and as of a few weeks ago we have another important concept down. At long last we believe we have seen a new planet in the process of formation. While he have seen the destruction of stars, detected the effects of black holes, and "heard" the resonance of the big bang, we still not yet seen a planet forming, at least until now.

Artists Interpretation of a new planet around the young star T Cha

     The baby planet in question is around the star T Chamaeleontis (T Cha) and while it has not been precisely seen, there is evidence that a new planet is forming around the star. Usually when astronomers find a young star, they also find a basic cloud of dust circling the star. The difference between this star and all the rest is that astronomers have found two rings instead of one and it is a distinct possibility that this gap represents a planet.
      On the other hand there is the possibility that it is an elusive brown dwarf which would also clear up a band around a star.
     The true excitement through all of this is that we can actually detect these things; how far we have come in these past few decades in terms of what we can see is stellar at least (pardon the pun), those recent followers of my blog may remember the excitement over the Kepler results and the shear volume of data that brought back. Space is full of discoveries that we can make if we just focus the technology and realize that some discoveries are worth the time, effort, and tax dollars.
May The Stars Shine Brightly In Your Skies

tip of the hat to Science Daily

Astro Fact: The End Of The World

     In the merging of my space activities, astro facts have made the jump into this blog, for those unfamiliar they are little blurbs on basic and cool astronomy information. They are meant to inform and maybe stir some questions of your own all the while increasing your astronomy terminology.
     So here we go, your daily astronomy fact:

     Quite simply the world is not going to end in 2012, I can say this with confidence, nothing like the following picture is going to happen at the end of next year

cool, yes, realistic, hardly

     Doomsday prophecies come along every couple of years and up until now, NONE OF THEM HAVE HAPPENED, look around you, do you see the world, if yes, then doomsday has not happened, recently at least. Every hundred million years or so a large asteroid finds itself on collision course with Earth, but still none of these has ended life entirely.
     So what else do people harp on as a world ender? I have heard several people claim that a magnetic pole reversal will end the world. As a geologist I can say, yes, the poles do reverse, and they might be in the process of doing it now, on the other hand, this happens all the time, around every 700,000 years or so, plus while it may disrupt your compass, we live in an era of GPS and those will hardly be affected.
     Maybe yes, a solar flare coupled with a thinning protective layer could do us some damage, it has been observed that flares can damage electrical infrastructure and that was back in the mid 1800's, one like that could have some serious side effects these days, but nothing we couldn't get over. Same goes for any variety of other sun or magnetic based troubles.
     Finally, there is always talk of such shady names as Nemesis, but these are nothing other than bizarre musings that may be true, but probably aren't.

May The Stars Shine Brightly In Your Skies (well beyond Dec. 21 2012)

thanks to everybody who has pointed these out including my radio team at MIR

Bringing Everything Together Into One

xkcd.com

     Just a housekeeping note, you may have noticed that the format and image of this blog has changed a bit in the past few weeks. Like a black hole sicks in everything that it can, so too does this blog tie in several of my current projects including the "Our Place In The Universe" internet radio show and The Stars Above Mines column in the Oredigger.

     What does it mean, now you will be able to find all you want spacewise, at least hopefully quite a bit spacewise, here including the return of the famous star fact of the day.

May The Stars Shine Brightly In Your Skies

My Oh My Space Budget Feels So Cold

     We live in desperate times, still these times do not warrant cutting our links to the future. 

from smbc-comics.com

     The federal government released their planned 2012 just a day or two ago and I have been severely put down by it. First off, NASA budget was not cut, but instead frozen at the level it is currently at, around $18.7 billion (here are the specifics from NASA themselves). Thats a nice sum of money, enough for some research, a few launches here and there, but it lacks enough to build momentum for where we should be going in the next decade. 

     We have the minds, we really do, and we have the willing masses. 

     I am curious, how much do you think NASA should be funded?

Seeing Deep Into Our Own System

     What if I told you that everything you knew about the solar system was wrong? Well thats a bit extreme, but what if I told you that there may be another gigantic beast of a planet sitting on the outer extremes of the solar system, you would be skeptical, as would I. Skepticality is important in times like these where unbelievable claims can be thrown out and received just because they are sensational, just look back in the past at the the cold fusion scandal (here's a bit of a history if it has escaped your memory) sensational claims get a sensational amount of press.
     But I digress, a few researchers at the University of Louisiana at Lafayette have announced recently that there may be a huge planet sitting out in the Oort Cloud. For those unfamiliar with the districts of our fine solar system, the Oort Cloud is a hypothetical sphere of dust and ice balls that surrounds the whole system and is very very far away. It has been cited as the source of comets outside the much closer Kuiper Belt. The idea of a planet sitting far out in those reaches is not new, we find small Pluto sized planets out there all the time now, and the idea of a Neptune sized planet is not that absurd, but a planet up to four times the mass of Jupiter, you have to be kidding me.
     If Tyche (article) really does exist it has some serious ramifications for the concepts of solar system formation and may explain some mysteries of the solar system. It would also be sweet addition to the solar menagerie, a possible target for the space program many generations in the future, but mind you this is all if it exists.
     What really irks me about all of this though is the absurd hype being used. Gizmodo, a fairly respectable entity, used an altered version of this image: 

     Though they mention at the bottom of the article that it is an altered image and the comparison is off, its way at the bottom in gray italics as though they don't really want to make light of that. Other articles don't even mention that there is a significant chance that their data is off or they are interpreting it wrong, they just hastily let the reader assume that it is true.
      We will know sometime in the next few years if this planet exists, but for now, I am not keeping my hopes up.
May The Stars Shine In Your Skies!

What We Are Looking For and How Do We Find It?

     When it comes to planets outside our own, to put it precisely we are looking for another Earth. For planets nearby, we can see what they are made of and though there is some possibility to colonize them, it would be nearly impossible to make them like Earth.
     The main ingredients that come into building a suitable planet are as follows: there needs to be an atmosphere with a large amount of oxygen and not to many toxins, there needs to be habitable land that can support plant life preferably, some sort of harvestable structural resource to make a settlement, and water that exists in multiple phases, though it is fine if there is no ice. Beyond these there are a few subtle features like a differentiated and molten core to support a magnetosphere and a differentiated atmosphere, but if the planet has all of the features from the first list, it is likely that the other main features are accounted for. What we are looking for for these is a planet within the "Habitable Zone," an area around a star where its not too hot and not too cold.
     So how do we know where a habitable zone is. Mostly it depends upon the star, for example the following picture illustrates the difference in the habitable zones of our own fair system and the heavily populated Gliese 581 system.

     Notice how the zone is much closer to the star since the star is significantly closer to the star than it is in our own system.

     As for finding a planet with actual atmosphere and water, it is currently impossible unless the system is extremely close (and with the discovery of new brown dwarfs, there may be some very "local" systems). It will be up to future technology to determine which worlds have dry land, which have oceans, and which ones we would feel perfectly at home on.

     For now I will also leave this amazing Sagan video to highlight the importance of this wonderful planet we are part of.

May The Stars Shine Brightly In Your Skies!

What Happens On A Busy Day In The World Of Planetary Sciences

     In the world of planetary sciences there are days where nothing happens, researchers sit around refreshing their searches, looking deeper at some old Hubble data, or building new models of systems. On the other hand there are days like today. Earlier today I mentioned how we find planets beyond our own solar system and I pointed my finger at Kepler for being one of the better resources we have.
     All I can say is HOLY COW!!!! Kepler returned data from its recent scan of the skies and has revealed a staggering 1200(ish) new planets in our own galaxy! 1200 in a portion of only one-millionth of the total galaxy!
     Since I am not an expert on this I would suggest following this link: BadAstronomy's coverage of the event

May the stars shine brightly in your skies

Reaching Out With Science

from the greatest webcomic ever xkcd

     Scientists walk a precarious line between appeasing the publics views and causing mental revolts. From the eyes of someone who hopes to one day assist in the upwards progress of humanity the public is scary, one day they are interested in a topic and the next day they are crying for your head on a plater. For instance back late last fall, a NASA researcher claimed to have discovered life on Earth that used arsenic instead of phosphorous.
It was quite the hulabaloo and the scientific journalism world jumped all over it as though it were the find of the century. As it would be, within the next few days certain skeptical scientists started picking holes in the idea, much as always happens and the media sided with those that were fighting the idea that arsenic was really used by these life forms. For someone in the public it looked like science was wrong and couldn't get its act together.
     So where else are there problems. Well when you happen upon a revolutionary idea that the public is unhappy about, you have to do some convincing. While the following video is unrelated to planetary sciences, it touches greatly upon to need for scientists and skeptics to look onto themselves and their behavior to better how they are viewed. Warning it is about half an hour long but is well worth the time.

 

May the stars shine brightly in your skies!

Here Planet Planet Planet...

     Distant planets are incredibly difficult to find, so thus to better understand them it is incredibly important to obtain some knowledge of how we find them. To get an idea of just how difficult it is to find new planets, despite living within our own solar system, it took well into the 1800's to find the 3rd and 4th largest planets and to this date we are still finding planets on the outer rim of our home.
     So if it takes so much effort to find those bodies that are right under our nose on a galactic scale,  how do we find planets that are magnitudes of distance further away. Luckily for us, we know where the stars are, we do not need to find stars like we do with the menagerie of dwarf planets that circle our sun. There are multiple ways in which a planet can affect the star which it circles around, for instance if a planet is large enough and the star is close enough to us, we can observe slight alterations in its spin. Imagine it like a top, if there is a slight flaw on the edge of the top, at some level the top will wobble slightly.
      There are of course better ways, the primary of which involves monitoring the amount of light produced by a star.  Watch this video about the Kepler mission to find planets in the habitable zone from NASA.


 

     So you will have noticed that the problem with the Kepler mission is that we don't get pictures. People inherently want visible data in order to feel an affirmation of their goals so it is the goal of scientists to fill the knowledge deficit with society. The main question with this is can we actually get pictures of these bodies and the simple answer is yes. Back in between 2004 and 2006 Hubble was used successfully used to capture an image of Fomalhaut-b. While it was known that there was the possibility of planets in this system, the picture marks the first time that humanity has been able to see another planet.
   

May the stars shine brightly in your skies!

Why Go Where No Man Has Gone Before?

     Space is full of many more questions than answers, at least at this point in human history. As mentioned in the first blog post the point of these posts is to bring together all of the current findings and speculations on planets beyond Earth in a succinct and understandable way.
     A few resources for those eager to discover more beyond this blog are as follows: 
BadAstronomy  - A good overview of many astronomy subjects along with general skepticism
Oredigger News  - Occasionally I post reviews of the various astronomy lectures that come to campus here
The Stars Above Mines  - My other weekly astronomy series

Hopefully you will check those out and maybe find a few more to share.

Welcome to Space

    As Carl Sagan once said, "We are children equally of the earth and the sky." It is from this saying that this blog derives its meaning: we are not just beings of this lump of rock and metal that speeds around the Sun, we are also residents of space, of the universe as a whole. While we will always be children of Earth, someday we will find ourselves reaching out into space to find homes beyond Earth and it is the job of this blog to bring these discoveries together to give a basic roadmap to the universe.
     Beyond this, Worlds Outside Our Own will focus on discoveries here on Earth that are pertinent to the exploration of the cosmos. Expect to see posts on life, spaceships, telescopes and other musings on the universe.
     So tune in as we begin to explore the worlds outside our own!