One of my first books on Astronomy was about the planets. It had a collection of pictures from the first missions to each of the worlds in our solar system. Seeing those photos, the planets felt so alien, so different, and the perspective was like something out a 1950s science fiction comic. But now, with modern advancements in imaging technology and rocketry, we can send heavier instruments to distant worlds, and see them in high definition. It changes the perspective and makes the world seem more familiar than alien, more livable and real. Take a look at the first picture...
The elements that make up our world and our selves, where do they come from? Sure there is plenty of Oxygen in the air, Silicon and Carbon are just lying around, and a bunch of other stuff can be found across our planet. but where did they come from originally? We know that most of the elements are synthesized within stars, but which ones aren’t? Which ones are made in a lab? The Big Bang gave rise to the first elements Hydrogen and Helium, which eventually clumped together to form the first stars and star producing the heavier stuff. Lithium,...
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.
Space Junk is a growing problem. Even though there is a lot of room in low Earth orbit, it’s estimated that 3,000 tons of space debris is floating around at different altitudes and speeds, posing a significant threat to present and future orbital infrastructure. The number of objects classed as space junk doubled in 2014 to 4000 individual pieces, mostly due to collisions between objects already in space. Most of this space junk is old derelict satellites and rocket bodies and engines leftover from 50 years of space exploration. Because of the wide variety of altitudes, trajectories, and speeds, it can...