Alliteration is accessible to all! Okay I’m done. Start some science! Really done this time. Today’s double post covers the smallest of stars, still larger than most planets, and the only weather Mercury will ever have. Humans are naturally interested in the extremes, the biggest, smallest, fastest, hottest, coldest, and every other characteristic outlier. With stars, being so huge and powerful, we are often more interested in the largest, hottest, and most energetic. Though on the opposite end of the spectrum, Cambridge University astronomers have discovered the smallest star in the known universe. The star, a red dwarf, has the...
Last week, while looking at some of the best images from the Cassini spacecraft, I commented on the fact that the smooth rings of Saturn are small, varied chunks of ice and rock when you get down to the smaller scales. Reflecting on that this morning, I was thinking about how observing objects in our universe at smaller scales gives new insight into the variety and complexity of natural phenomena. Not long after, I came across a story of a new interesting object in our own Solar System. A new binary asteroid was discovered. This in itself isn’t too different...
As I was watching the grand finale of Cassini and listening to the mission team talk about the accomplishments of the mission, I learned a little bit about propellors. Not your typical airplane propellor, but the name used to describe this fascinating feature in Saturn’s rings. Seeing Saturn’s rings from afar, or even relatively close with Cassini, we see the rings as perfect. How do we end up with strange features and imperfections like this one? Looking elsewhere in the rings, we can find clues. The first clue is the namesake of the mission itself. The Cassini spacecraft was named for...
You’d think I would have learned my lesson by now. Every time I think I’ve seen it all, that I’ve seen every strange phenomenon in space, every unique planet, moon, star, galaxy, every variation, I’m proven wrong. I expect that the order has been established and everything newly discovered will fall into a category with no more unique variation. But here we are again. The close up view of Pan. Pan was photographed only a few days ago by the Cassini spacecraft as it carries out the final months of it’s mission to Saturn. It was revealed to be a...
Like lighthouse beacons in a dark ocean, stars act as tiny islands in the vast universe. Producing light at the atomic level from the powerful release of energy through fusion, they are the engines that drive the formation of new elements. But in the darkness there are plenty of other hidden objects that are cold and give off little to no light. Yet many of them are easily seen. Here’s Why! The first thing to think about is infrared light, the radiation given off by warm objects. Large planets and brown dwarf stars are very bright in infrared, much brighter...
At this stage of our understanding of the planet Mars, we have seen salty water flowing (recurring slope lineae), found evidence of ancient riverbeds, and seen seasonal changes in the polar caps. But an important question is how does water behave on Mars? A bit of science here on Earth gives some insight. Water at sea level on Earth boils at 100 degrees Celsius, which actually defined the Celsius scale. But as pressure changes, liquids boil at different temperatures. As the atmosphere gets thinner, the boiling temperature of water decreases. On Mars, with it’s extremely thin atmosphere, this means that water...
It’s been nine months since NASA’s New Horizons spacecraft flew past Pluto. Time sure does fly. And even though the spacecraft is moving further from Pluto and Earth, it’s still sending back the massive amounts of data it gathered during closest approach. As this data is received, the huge team of scientists that are part of the mission use it to characterize Pluto so humanity can begin to understand just how strange the distant dwarf Planet is. Five new papers characterize some of the latest science done on the enigmatic world. Here’s a quick summary of each: The first paper from...
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,...
One of the first things you hear when learning about the states of matter is about good old H2O: Steam, Water, Ice. Naturally you are asked “Why does Ice float?” The answer is a simple matter of density, frozen water is less dense because water expands when it freezes. You can do a bit of an experiment by filling a balloon with water. Paint the balloon and put it in the freezer. When it freezes the water will expand, and so will the rubbery balloon, but the dried paint will crack at weak points. This is exactly the same thing...
Cryovolcano is a cool word, literally and figuratively. You hear about it a lot when talking about solar system moons like Enceladus, and it’s one of those words that would make a heck of a great Hollywood disaster movie title, like ‘Sharknado’ or ‘Armageddon.’ I do not, however, endorse either of those movies, they were both terrible. At any rate, a real cryovolcano seems like an interesting thing. It’s a volcano in the sense that it looks a little like a mountain and spews out material when the pressure builds from beneath the surface, but it’s not your traditional Earth-like volcano...