If there’s one true fact about every single gas giant planet ever observed, around the Sun or other stars in the Galaxy, it’s that they all are mainly composed of Hydrogen. Even though the giants of our solar system such as Neptune and Jupiter seem very different, it is Hydrogen that primarily composes them. The difference is in the details though. The blue colour of Neptune is due to the presence of Methane, and even then it only makes up 1.7% of Neptune’s mass. But Hydrogen is light. Wouldn’t giant planets like hot Jupiters lose their Hydrogen from being blasted...
How do we determine the size of the Universe? How do we know how far away the planets and stars are? How can we measure it without ever being there? The answer, as it always is in Astronomy, is light! More Photons = More Science! Here’s my video explaining the concepts of Parallax, spectroscopic parallax, and type 1a supernovae! Space is big, and although we can figure out how big it is, its another challenge all together to understand and comprehend its sheer size.
A long time ago in a galaxy far, far away…. Not just the star wars intro, but a true statement if you’re an astronomer. You see, once we start to look deep in space at the more distant objects in the universe, we are actually looking deep in time as well. It all begins with a light year. A light year is not a measure of time, it’s a measure of distance. When you turn on the light in a dark room, the light appears to fill the room instantly. But it actually takes a small amount of time, as light has...
Of the approximately 100 Million galaxies in the visible universe, we see incredible variation. We always try to classify them based on their shape, size, and peak radiation, but even then we still find others that stray from the usual patterns. In recent years, a new class of galaxies named Extremely Luminous Infrared Galaxies (ELIRGs) has been found with data from the Wide Field Infrared Survey (WISE). Now the king of the ELIRGs has been found, the most luminous galaxy in the universe. The galaxy, designated WISE J224607.57-052635.0, has a luminosity equal to 300 Trillion suns, and may owe its brightness...
Some pictures speak volumes, and some have interesting hidden details that we don’t always see from the outset. A stunning photo of the Milky Way from Taiwan shows more than meets the eye. At first glance, you might notice the fascinating shot of the Milky Way, and you may even pick up on the fact that the pollution from the distant cities blocks out all stars past a certain point. The prominence of pollution and light pollution are very present in the image. The real gem, however, is to notice the blue clusters of light around the rocks. They are...
The Cosmic Microwave Background Radiation (CMBR) started out as static in a communications lab in New Jersey where it was discovered by Penzias and Wilson in 1964. Since then it has proven to be an extremely powerful tool for determining the structure and age of the Universe. It helps us constrain cosmological models, gives us insight into the inflationary period of the Universe, and tells us where to look for the largest and smallest structures of the Universe. The temperature fluctuations seen in the CMBR are so small they can only be quantified in millionths of a degree. Yet these...
On the York Universe radio show this past Monday evening on astronomy.fm, I was having a discussion with another host about how so many things in Astronomy can take Millions or even Billions of years, yet there are still all kinds of phenomena that happen in seconds, hours, weeks, years, or on the scale of human lifetimes. Stars live for hundreds of Millions of years at the low end, yet the intense brightening from the Supernova death of a massive star lasts for only a few days or weeks. It’s as if the Universe is piquing our interest with short...
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...
The science of Astronomy goes far beyond what humans can see with our eyes. The visible part of the spectrum has taught us so much, but when we look at all photons across the spectrum of light, we find exponentially more powerful methods for discovering the mysteries of the universe. Radio waves, yes the same ones that bring you music in your car, are found throughout the universe in very interesting environments. Radio waves often trace the most powerful objects in the universe, such as super-massive black holes, quasars, and other types of active galactic nuclei. Humans see visible light...
At least once a month we hear of a new exoplanet with a strange and amazing story. From the ‘Super-Saturn’ ringed world to Magnetic Fields to systems of three Earths, there is an abundance of planets and strange systems. The latest weird discovery brings us to a star 1,500 light years away in the constellation Cygnus. The small-Mercury sized planet it hosts orbits in only 16 hours, bringing its surface temperature to over 1,800 degrees celsius. This amount of heat is enough to vapourize rock, and so the star is literally roasting the planet and blasting away its surface. The dust...