Polar Asterisms

Have you ever seen the North star, Polaris? It’s decently bright and very close to the North celestial pole.  Lining up with the rotation axis of the Earth, the North celestial pole is the point in the sky that never moves, day or night.  If you know how to find Polaris, it becomes easy to find the cardinal directions and navigate by the stars. And finding it simply requires finding the big dipper, a bright and easily recognizable object.  The same rules apply in the southern hemisphere.  But even though there is no southern star, there is another fantastic object in the South that can guide you to the...

Tug-Of-War Magnetism

I feel like I’ve been covering a lot of stories on magnetic fields over the past few months.  Fields around the Earth, the Sun, Mars, Jupiter’s Moons, and exoplanets are just some of the places in the universe where we are looking at magnetic field behaviour.  The intention is to use our understanding of magnetism to figure out what is inside these worlds, and how they interact with their space environment. You would expect us to understand the Earth’s magnetic field and interior very well, after all, we are stuck here.  But it turns out it’s very difficult to study the interior of...

The Essence of Science and the Fringes of Reality

Data is fascinating.  And what’s even more fascinating is that the laws of nature produce predictable patterns in data.  For example, if you toss a coin 100 times and measure how many times heads comes up, you’ll get a number between zero and 100.  If you repeat that experiment again and again and again, you’ll get different values each time, but usually the number will be around 50, and 50 will come up more than any other value if you repeat the experiment enough times.  If you plot this data, with the # of heads in 100 coin tosses on...

Where does the Gold come from?

Gold doesn’t come from your local jewelry store, and the Gold rush that occurred in the Yukon territory at the turn of the 20th century is not the source I’m talking about either.  I want to take it further back, to the origins of gold the element.  Similar to the origins of most other elements on the periodic table, it requires an immense amount of energy, such as the nuclear fusion that goes on within a star.  But Gold can not be made by a star’s thermonuclear engine.  Gold requires more energy, as does every other element heavier than Iron.  So...

Journey to the Center

As I’ve said before, the most powerful, most energetic, most intense processes happen in the center.  The gravitational center of the Earth, the Sun, and the galaxy are all places where temperature, pressure, and interactions of matter and energy are pushed to their limits.  When you look up to the sky it’s easy to see the Milky Way (unless you live in an urban center).  Do you ever wonder where the middle of it is? Where that supermassive black hole lies? Astronomers know where it is, but you need infrared cameras to see it past the thick dust that blocks...

Standing on Mars

One of my first books on Astronomy was about the planets.  It had a collection of pictures from the first missions to each of the worlds in our solar system.   Seeing those photos, the planets felt so alien, so different, and the perspective was like something out a 1950s science fiction comic.  But now, with modern advancements in imaging technology and rocketry, we can send heavier instruments to distant worlds, and see them in high definition.  It changes the perspective and makes the world seem more familiar than alien, more livable and real.  Take a look at the first picture...

The Intense Invisible Aurora

Jupiter has aurora.  It’s not surprising since it has a very powerful magnetic field.  It’s only natural that the two largest structures in the solar system, the Sun’s solar wind influence (called the heliosphere)  and Jupiter’s magnetosphere, should be constantly battling. But don’t expect to see Jupiter’s aurora through a backyard telescope.  The result of this battle is far more energetic, producing an aurora invisible to the human eye, one made of X-rays. The Sun constantly blasts charged particles off into space in all directions, assaulting the planets, moons, and other solar system bodies.  It is this blast of solar wind that gives...

Very Long Exposure Photography

Since diving into astrophotography last year, I’ve discovered that I love the concept of time-lapse, and not just with respect to astronomy.  It’s amazing to see the changes that can occur over long periods of time, and time-lapse photography is a way to record the changes and see how they unfold.  In astronomy the best time-lapses give you a sense of the Earth’s motion through space, show satellites zipping overhead, and show aurora dance along with weather patterns. Large amounts of time with slow incremental changes produce incredible results when it comes to time lapses. Science communication is about how to...

Potential Asteroid Impact on Jupiter!

I saw this pop up on Reddit yesterday, where user /u/bubbleweed posted a video to r/astronomy showing Jupiter with a clear sign of an impactor. It was independently observed in Austria at the exact same time.  Notice that both videos show the exact same thing. In the reddit thread, users encourage the original poster to report it to the Planetary Virtual Observatory and Laboratory in hopes of getting follow up from the Hubble telescope.  It is strikingly similar to a 2010 confirmed impact event. The ‘explosion’ of the potential impactor might make you think it’s fake, that it couldn’t explode because...

Saturn Double Shot 2/2: Enceladus Eruptions Explained

One of the most surprising and intriguing finds during the decade-long Cassini mission has been the discovery of geysers on the Moon Enceladus.  Originally spotted in 2005, scientists have spent the last decade trying to understand how they work.  And now they finally have a working model. How does an eruption on a frigid Moon last so long?  Eruptions on Earth are not long-lived, and if they are, they are very spread out. For Enceladus to have a ton of localized geysers in the South polar region, you need some pretty specific scenarios. Aside from the fact that a constant stream of material could clog...