Some of the most gorgeous, ghostly, and variable objects in the universe are planetary nebulae. They are all formed in a similar process, as a low-mass star (like our Sun) sheds it’s outer layers of gas and dust, heating them to a glow as they disperse over hundreds of millions of years. A few Billion years from now, the Sun will undergo the same major state change. When this happens, perhaps other species in the far future will gaze upon it and marvel at its beauty. One of the difficulties in studying a planetary nebula is measuring it’s distance from...
As the results from Pluto and its system of moons continues to pour in, we are seeing a lot of scientists keeping busy in excitement as they interpret the data and work to understand the complexities of the recently illuminated dwarf planet. The fascinating images that have returned have also been interpreted and manipulated in ways that show fascinating features and unexpected views. A recent rendering shows a complete rotation of Pluto and Charon from images taken by New Horizons. Since it takes Pluto 6 days, 9 hours, and 36 minutes to rotate, New Horizons couldn’t take high resolution images...
I love living in Canada. We have skies that can be free of light pollution with only a short trip outside the cities, and vast areas of land where you can really get away and enjoy the majesty of the cosmos. I occasionally peruse the Canadian made Skynews magazine, and one of my favourite parts is the section where they showcase the work of Canadian astrophotographers. It gives me hope as an amateur astrophotographer myself to eventually get to that level. One of the local Astronomy clubs I visited recently is the North York Astronomical Association, a group of amateur astronomers...
With the recent story of the star with a debris ring potentially being a sign of extraterrestrial life (spoiler alert, it’s not aliens), I had to talk a bit more about debris rings in general around other stars. How can they exist? When we start to look at the number of worlds and the variability of objects and stars, it would be no surprise to find strange systems where recent interactions have produced all kinds of fascinating patterns. It’s another example of finding art in nature. A group of astronomers from the university of Warwick have directly imaged a debris...
Dark matter is everywhere. There is way more of it in the universe than the matter we are made of and interact with. Yet for the sheer amount of it, we have no way of determining what exactly it is. It’s as if we didn’t know what air was, and even though we could see it and breathe it, we couldn’t measure it. The most tantalizing part about dark matter is that we can see the gravitational effect it has, and so we can determine how much of it there has to be. Some places in the universe have more dark matter than...
Time is a very slow thing when we talk about the universe. Stars can live for many Billions of years, and over human timescales they seem stagnant and unchanging. So it’s no surprise that when we look at distant galaxies, they don’t appear to change at all over the course of centuries. But appearances can be deceiving. Galaxies do change, more quickly than you would imagine. M87, pictured above, is a monstrous Galaxy of nearly 1 Trillion stars, more than twice as populous as the Milky Way. It looks like a big fuzzy star, and it quite regular in appearance...
Titan is the most interesting body in the solar system from a weather standpoint. It has a thick and robust atmosphere, a liquid cycle of methane and other hydrocarbons, and it has seasonal variations in these patterns. It’s essentially a cold and oxygen-deficient version of Earth. Because the seasons on Titan take 7.5 years to pass, we have few opportunities to study them up close with the Cassini spacecraft. So as long as Cassini is operating, we are using our time wisely to see how Titan is changing. The first major change is a giant ice cloud that has formed...
Our species is just now reaching the technology necessary to detect features of exoplanets, and not just the exoplanets themselves. We have seen atmospheres, aurorae, and magnetism on distant worlds, and now we can add incredibly fast winds to that list. A team of astronomers have discovered an exoplanet, classified as HD 189733b, that has wind speeds exceeding 8,500 km / h, or about 2 Km / s. Lead researcher Tom Louden, of the University of Warwick’s Astrophysics group, said: “This is the first ever weather map from outside of our solar system. Whilst we have previously known of Wind on...
A couple of weeks ago, using the Subaru Telescope, astronomers from the Carnegie Institution for Science discovered the newest dwarf planet of our solar system, which may end up claiming the title for most distant dwarf planet. The object, which isn’t even confirmed as a dwarf planet yet, is called V774104. It resides a distance of 2-3 times that of Pluto, around 9 Billion Km. It is expected to be a little less than half of Pluto’s size, and it may have a highly eccentric orbit, bringing it closer to the Sun over it’s multi-century trip around the solar system. “That’s...
A few hundred million years after the big bang, the first stars formed. We aren’t exactly sure how, but we do know that they contained Hydrogen, Helium, and a little bit of Lithium. These were the only elements in the entire universe at the time. Within these first stars, the fusion of heavier elements began. Oxygen, Nitrogen, Carbon, Iron, and all the other elements that make up everything we know formed Billions of years ago in these first stars and in their progenitors. It was a slow process to produce these elements and seed them throughout the cosmos, but over...