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...
Mars has water. This statement was in question 15 years ago, but now it’s an accepted idea backed up by proof obtained by the last three Mars rovers. Not only does Mars have water now, but it had significantly more water in the past, as evidenced by the geological features seen throughout the planet. Ancient lake and river beds, water erosion, sedimentary rocks, all things that highlight once wet areas. How much water did Mars have? Where did it all go? A team of astronomers from NASA’s Goddard Space Flight Center in Greenbelt, Maryland has been searching for answers, by looking...
It’s been an amazing week for detection and study of water in our Solar system. Just last week we received the first results of the Rosetta mission’s analysis of water from comet 67P. Now we’ve received the latest breakthrough from the Curiosity Rover on Mars, results on Water, Methane, and even Organic material! The Sample Analysis at Mars instrument (SAM) took measurements of the Martian atmosphere over a period of 20 months, and for two of these months in late 2013 and early 2014, the Methane levels were 10 times as high as measurements before and after the spike. “This temporary...
One of the most important science goals of the Rosetta mission is to determine the conditions in the early solar system, as well as the element abundance and climate that led to the development of life on Earth. By studying a comet that has been isolated in Space for 4.5 Billion years, we can learn about the formation of the Solar System and the origin of the raw materials for life on Earth. The Earth was thought to be so warm when it formed that any water would have evaporated away into space. If so, where did our vast oceans come...
Twenty Years of exoplanet research has seen incredible advances in detecting planets orbiting distant stars, as well as their size, orbit period, orbit distance, and even atmospheric composition. But the next step in understanding exoplanets is to learn about their magnetic fields. We know that many exoplanets should have magnetic fields. It makes sense, since nearly every world in our own solar system has some sort of magnetism. But for the first time, an international team of Astronomers, led by Kristina Kislyakova of the Space Research Institute of the Austrian Academy of Sciences, have discovered a way to detect magnetic fields...
If you’re in Astronomy circles you may have heard about a big cloud of Hydrogen heading toward the supermassive black hole in the centre of our galaxy, Sagittarius A*. The lead up to the cloud approaching the black hole had astronomers buzzing this year, as it would be a direct opportunity for us to see the black hole ‘devour’ the cloud. The black hole would show us some celestial fireworks and give us a huge opportunity to study their behaviour. Astronomers watched closely, and then the cloud passed right by…. We should have seen the cloud torn apart as matter spiralled...