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...
Sadly no, this time we are NOT talking about Pluto. Astronomer Mike Brown from Caltech, heralded as the ‘man who killed planet Pluto’ has done some new work that might replace Pluto with a better fit for a true ninth planet, one that is ten times the mass of Earth. Now the only problem is finding it. But wait, if we haven’t seen it, how do we know it’s there? Well it certainly showcases the power of science, that an understanding of the true laws of nature can give us incredible predictive power. It started out as a ‘that’s strange’...
The Past: Mars has water, and it used to have a lot more. If modern Mars had the ocean it once had, it would evaporate off into space quickly because there is no heavy atmosphere to help keep it pressurized and in liquid form. Mars would have had a thicker atmosphere in addition to it’s magnetic field in order to keep all that water in one place. So where did the atmosphere go? And if there was such a thick atmosphere, how does it account for the fingerprint of excess Carbon-13 and a lack of Carbon-12 found on the red planet...
New science has come forward from a team of astronomers who, earlier this year, discovered a pair of black holes in a close orbit, heading toward a cataclysmic merger. The new results suggest that this incredibly powerful collision will occur much sooner than previously thought, as little as 100,000 years from now (A blip on the radar of astronomical timescales). By precisely calculating the individual and relative masses of the black holes, the team was able to predict how the merger would take place, giving a time line for the collision. The astronomers, from Columbia University, saw bright flashes of light...
It’s difficult to determine the history of the Solar System. The planets have been in their current orbits for Billions of years, and any signs of prior activity or configuration has to come from leftover geologies of smaller, rocky worlds. It makes it especially difficult when the Billions of interloper asteroids and comets throughout history have to be accounted for, adding to the already complex task. But if there is one thing humanity has going for us it’s the ability to theorize, model, simulate, and test scenarios here on Earth. We can try new ideas and see if they match...
A vast number of Galaxies in the Universe have a central black hole that is incredibly massive. The Black Hole at the centre of the Milky Way, dubbed Sag A*, is estimated to have a mass as high as three Million Suns. We generally can’t see black holes, but when they start to pull in matter from surrounding gas and dust clouds, the material forms a disk around the star. This accretion disk can heat up to incredible temperatures and emit X-rays and other high energy light, allowing us to see where the black holes are. Sometimes the light from...
Voyager 1, launched way back in 1977, is still giving us Science, far away beyond the influence of the Sun. In the past few years, the spacecraft has passed the boundary between the Solar System and the Interstellar Medium, the so called Heliopause. This has given scientists the first ever direct look at the Space between stars. Since then, Voyager has felt some interesting shock waves, which are being referred to as ‘Tsunami Waves.’ When the Sun emits a Coronal Mass Ejection, the charged particles travel through the Solar System as a pressure wave. When this wave hits the Heliopause...
In a press conference yesterday, NASA officials revealed the latest data from the Curiosity rover mission on Mars. The data shows that the Rover’s current location, at the base of Mount Sharp in the Gale Crater, was once deep underwater, part of a vast lake filling the entire crater. The results suggest that ancient Mars had a climate that could sustain large lakes across the planet over millions of years. “If our hypothesis for Mount Sharp holds up, it challenges the notion that warm and wet conditions were transient, local, or only underground on Mars,” said Ashwin Vasavada, Curiosity deputy...
I’ve seen a lot of lovely images from the Spitzer Space Telescope. It takes infrared images and can see the fine structure of galaxies, where stars are forming and where they are not forming. The photos paint a picture of the history and evolution of a galaxy. The latest image released last week shows some amazing features. The Cyan light in the image is a combination of blue and green coloured light representing infrared wavelengths of light at 3.4 and 4.5 microns. This wavelength shows the stellar population in the galaxy. The red light is representing dust features that glow...