I really enjoy looking at images of the Sun from one of the several round-the-clock monitoring systems. It’s fascinating that the public can get access to almost real time images of the Sun and see what’s going on in several wavelengths. I’ve always hoped to see what other stars look like in the future, and today, that future is one step closer. Here’s a brand new picture of another star! This is a real image of distant star π1Gruis, a star 350 times as massive as the Sun, in the southern hemisphere constellation Grus. The star is 530 light years...
In 2014, comet C/2013 A1, known as sliding spring, came within 140,000 Km of the planet Mars. This is a bit more than a third of the distance from the Earth to the Moon. Comets are small, so gravitationally this interaction was insignificant, but from an electromagnetic point of view, things were shaken up big time! Comets are small, relatively speaking. A typical comet is a few kilometers across, about the size of a big city. But with sunlight melting ices and liberating gases and dust from the comet’s interior, the part of the comet we see in the sky,...
NASA has several orbiting spacecraft trained to study the Sun during it’s 11-year cycle. Recently the team of astronomers and scientists behind the Solar Dynamics Observatory (SDO) released a video showing a full year of activity on the Sun. You’ll want to crank this one up to 4K if you can, though it still looks spectacular in 1080p. It’s interesting to note that the bulk of the solar activity is along the rotational plane, which is the plane of the entire solar system. Also notice that as the days pass the Sun doesn’t rotate completely every day. This is because...
Welcome to a new series of posts that will characterize 1000 amazing facts about the Universe. There is so much out there that we have yet to learn, and every day, astronomers across the globe are using their research to reveal the deepest secrets of the cosmos. This series will look at the strangest, coolest, most exciting facts that we have discovered in hundreds of years of modern science. Fact #5:When you see an aurora in the sky, it is a sign that you are being protected by the Earth and not being blasted with solar radiation. The Sun; A...
Gas giants, like Jupiter, Saturn, or some of the largest exoplanets, are mostly made of Hydrogen gas. The simplest and most abundant element in the universe, Hydrogen easily reacts to form compounds, especially at higher temperatures, making it hard to contain and work with. It’s essential to understand how it behaves across a range of temperatures and pressures so that we can understand the interiors of stars and planets. But there may also be applications closer to home, like the white whale of materials science, a room temperature superconductor. A team of researchers from Osaka University and Tokyo Institute of...
The only reason we can see black holes in the universe is because some of them swallow up gas and dust. This heats up material that is spinning rapidly around the black hole as it falls in (called an accretion disk), and produces massive jets of material due to conservation of angular momentum that can be seen across the universe. The energy released in the jets and the energy given off in the accretion disk are proportional to how much gas and dust is being consumed by the black hole. More matter = more food = more energy released. But...
I’ve seen images from the Sun in all different wavelengths of light. It looks very different across the electromagnetic spectrum, with some wavelengths making up more of the Sun’s total energy output than others. What’s always striking to me is seeing the images of the Sun that show its structure, including the strange and beautiful features of plasma that dance across it’s surface. A recent APOD captures just such a concept. This image shows the Sun in Hydrogen Alpha, a wavelength of light at 656 nanometres. This is from the ionization of Hydrogen, where the electron is excited and transitions...
I see so many amazing discoveries from educational institutions around the world, as they do cutting edge research in a variety of space-related fields. But I am truly excited when a discovery is made close to home, at a university here in Ontario, Canada. A PhD candidate from Queen’s University named Matt Schultz has discovered the first ever massive binary star in which both stars have magnetic fields, a star called epsilon Lupi. Why is this a big deal? Well if you’ve done a bit of astronomy in school, you’ll know that stars like the Sun have huge magnetic fields....
It sounds more wacky over-the-top science fiction, but this is real. A video from the Solar Dynamics Observatory (SDO) shows a huge spiralling solar prominence many times larger than the Earth. The Sun’s powerful magnetic fields drive such events, and even though I’m well aware crazy things like this happen on the Sun every day, I’m still blown away. Cheesy disaster B-movie? Let’s call it Solar Plasma Tornado.
For the last few months, Venus and Jupiter have been visible in the night sky. Venus makes it’s usual 584 day cycle, becoming an ‘evening star’ once again, reaching far from the Sun in the West, while still following our central star. Jupiter has slowly worked its way westward over the past few months, due more in part to Earth’s orbit than Jupiter’s. Finally, the long-awaited conjunction of the planets is nigh, and it offers the best views and photographic opportunities of the year for professional and amateur astronomers alike. What is the brightest object in the sky? The Sun...