Remember last week when I was talking about the evidence for some ancient-but-astronomically-recent supernovae? It turns out there is other evidence! Evidence that has helped scientists narrow down the potential source locations. Data from the Cosmic Ray Isotope Spectrometer (CRIS), an instrument aboard NASA’s Advanced Composition Explorer (ACE) spacecraft, has helped us figure out where the recent supernovae might have come from. CRIS measures what we call cosmic rays, atomic nuclei that have been accelerated across the galaxy at close to the speed of light. CRIS has been around for a while, and through 17 years of cosmic ray observations,...
Planet nine from outer space has yet to be found, but the theory is sound, and the hunt has begun. Since the announcement by Konstantin Batygin and Mike Brown on January 20th, astronomers have been finding ways to search for the theorized planet, using all the available data to zero in on it’s position. It’s certainly big enough to find, at roughly 10 Earth masses, but with a huge swath of space to search, everything that excludes part of the search area is a step in the right direction. One of the ongoing goals of researchers is to carefully calculate...
Black holes are the most extreme phenomena known in the universe. They are the absolute limit of what gravity and space-time can be twisted into. It’s no surprise that some of the most massive and advanced telescopes in the world are tasked with studying their properties and how they interact with their environment. But maybe there’s a way for you and I to see what a black hole can do, and all we need is a moderate 8 inch telescope and our eyes! Even though black holes generally give off tons of radiation, we need to observe them in the...
The biggest problem in theoretical physics today is the marriage between Quantum Mechanics and Gravity. Throw in the fact that whatever theory comes out of it has to additionally be able to explain Dark Matter and Dark Energy, and we have ourselves a massive problem to solve. How do we reconcile the seemingly random probabilistic nature of quantum mechanics with the smooth, pliable space-time of General Relativity. We have two incredible theories that explain the Universe, make predictions accurately, and have led to amazing advances in technology and understanding, yet they completely disagree with each other at common scales. So...
The observations of our galaxy throughout history have told us that our Milky Way is roughly 100,000 light years across. A number confirmed time and time again by scientists with better and better instruments. But recently a team from the Rensselaer Polytechnic Institute in New York, USA, published a paper challenged that idea, saying the galaxy is much bigger, up to 150,000 light years in diameter. They used the Sloan Digital Sky Survey’s (SDSS) data to look at the distribution of stars outward from the centre of the galaxy, in reference the the galactic plane. They discovered that the stellar distributions oscillated...