How often does a star explode as a supernova in the Milky Way? With as many as 400 Billion stars, you would expect it to happen often But stars live a very long time, and most massive stars take anywhere from a few hundred million to a few billion years to reach maturity and explode. Putting all this together gives us a surprisingly human estimate. A supernova explodes in the Milky Way, on average, once every 50 years, or about once per human lifetime. We can still see remnants of great explosions that happened long ago, still expanding into the...
Minerals are formed when geological or biological activity create unique combinations of elements. The type of mineral you get is dependent on the environment in which it forms. For geological minerals, pressure and temperature can vary to give different combinations that are difficult to replicate in a lab. For biological minerals, life slowly but surely undergoes processes that shift and shape minerals, usually as a waste product from obtaining energy. But with 3 billion years of life forming and reforming on our planet, springing up new diversity and losing countless species to extinction, there may be minerals that we simply haven’t...
Think about Earth and its population of over 7 Billion people. That’s 7 Billion people who wake up, breathe, live, think, experience, and interact with each other. The sheer volume of interactions and variation in the human experience is staggering. Every second you are alive these interactions are happening all around you, and far from you in any corner of the planet. Millions of people right now feel sad, happy, ecstatic, broken, angry, tired, energetic, and everything in between. Now if we go beyond to the Milky Way, where there are more than 50 stars for each and every homo sapiens on...
Astronomers save up some of their best science for conferences. When all of their friends and colleagues get together it can be a big opportunity to show off and impress the titans of the field. This is why big astronomy meetings generate a lot of science news. This is the third or fourth story I’ve posted about the proceedings at the Royal Astronomical Society’s National meeting this week, and the good science just keeps coming in. Although I had strong opinions about a declaration of potential life on Comet 67P earlier this week, a story from the same meeting, I...
In Canis Major, nearly 12,000 light years from Earth, lies an emission nebula that always makes me think of a particular comic book character. NGC 2359 is 30 light years across, and is colloquially known as Thor’s Helmet. The complex structure of Thor’s helmet consists of bubbles and filaments, and is due to a series of bursts from the massive star HD 56925. This star is a rare Wolf-Rayet star, which consistently expels its outer layers of gas at high velocities, and is characterized by its very high temperature. The blue bubble in the above image is a result of...
If there’s one difference I notice between Science and Religion, it’s that when questions come up and something unexpected flies in the face of a well-established principle, Science gets excited, Religion gets defensive. I’m always on the lookout for new data that causes us to rethink the ideas we have, and when I find something, I get excited because it means we’ve found something that has been elusive for a long time. Isaac Asimov said it best: The most exciting phrase to hear in science, the one that heralds new discoveries, is not ‘Eureka!’ but ‘That’s funny…’ – Isaac Asimov...
Have you ever heard of an object called ‘Hanny’s Voorwerp?’ It’s a thin wispy ghost-like blob at the edge of a Galaxy. It was discovered by Dutch schoolteacher Hanny van Arkel in 2007 as she was classifying galaxies as part of the Galaxy Zoo project. Since then, astronomers have been studying its origin, as it was the first of a brand new phenomenon in astronomy. This past week, a new data set of wispy trails at the edge of Galaxies have been released as part of a Hubble study by Bill Keel of the University of Alabama, Tuscaloosa. The new Hubble...
After reaching a deeper understanding of the subsurface ocean of Enceladus just yesterday, a stunning discovery has just been made about the largest Moon in the solar system. The largest moon of Jupiter, Ganymede, contains a subsurface ocean of it’s own. The discovery was made with the Hubble space telescope and a careful study of aurora on the giant moon. That’s right Ganymede has auroral activity. This is because it is the only moon in the solar system with a magnetic field. The magnetic field funnels radiation from the Sun toward the north and south poles, where it ionizes molecules...
Since the Huygens probe dropped down to the surface of Saturn’s largest moon Titan, astronomers have pondered the idea of life on the distant world. With a liquid cycle not unlike Earth’s water cycle in form, but consisting of frigid liquid hydrocarbons, could a new variation of life exist, not as we know it? Jonathan Lunine, director for Cornell’s Center for Radiophysics and Space Research, is an expert on Saturn’s Moons and is a scientist on the Cassini-Huygens mission, which originally discovered the Methane-Ethane lakes on Titan a decade ago. Given a grant to study non-aqueous life, he needed help....
Today I found a few nice images that I wanted to talk about, and each one revealed something different about the object that was being imaged. I thought it would be a good chance to show everyone how astronomy is really the study of patterns of light, speaking from a minimalist perspective. We learn literally everything about the Universe beyond the solar system from the photons we see. From photons we can deduce the mass, distance, density, composition, behaviour, formation, and evolution of the cosmos. Pretty stellar! (pun intended) Here are some recent images and what we learn from them....