Every time a comet slowly approaches the inner solar system, astronomers get excited. We are hopeless romantics, wishing the new comet will brighten enough to be labeled the next ‘comet of the century.’ Yet we have had our hearts broken before, more often than not. The most recent fizzled comet was nearly two years ago with the burn up of comet ISON as it passed close to the Sun. It made for a spectacular view for SOHO and SDO looking at the Sun, but for the rest of us it was just another heartbreak. But once again we have hope; A...
Rosetta captured comet 67P in all its glory this past week, as it reached perihelion, its closest approach to the Sun. This marks the point where the comet feels the most solar energy, resulting in streams of gas and dust shooting from the nucleus. Rosetta captured a series of images to show the brilliance of the comet. It’s been just over a year since Rosetta first injected itself into orbit around 67P on August 6th, 2014, and it has been hitching a ride around the Sun with the comet ever since, collecting amazing science data and observing the comet through its...
A few weeks back, the Philae lander woke up and began transmitting the coveted science data it had been holding on to for the better part of 2015, waiting for the Sun to shine bright enough to wake it from its deep slumber. As soon as it was able, it transmitted data back to the Rosetta orbiter, which then sent it on its long journey back home to Earth. Now that a few weeks have passed, we can finally see what the first science from the surface of 67P looks like, and determine its true fate. We can clearly see a...
Categorizing objects in the universe can be difficult. The fiasco with Pluto over the last decade is more than proof of that. We generally look to location and then to size as the two main methods for classifying the stuff that permeates the cosmos. Galaxies contain stars, which host orbiting planets, which host orbiting moons; While asteroids fly in between planets and icy comets are wander through the outskirts of star systems. But what about the in-between objects? Often we find strange things in strange places. There are moons in our solar system that are larger than planets. What would...
I’m sure you’ve heard the phrase ‘extraordinary claims require extraordinary evidence.’ Such is the case with the search for life. Any scientist who finds direct evidence for the existence of extraterrestrial life had better be sure. And then once they are sure they had better find too much evidence because people will still not believe them. It’s because alien life would be such a monumental, paradigm-shifting discovery, and our entire way of life and system of beliefs would be compromised. For this reason, I simply shake my head every time I see some sensationalized news article about the ‘potential for...
The Rosetta orbiter lies in a vast empty space, inhabited only by its orbital companion – a 4 Km wide ball of ice and dust, spitting out gases and other material as it is warmed by the Sun’s rays. It’s next mission milestone comes on August 13th, 2015, when the duo reaches perihelion, the closest point to the Sun in their orbit. It will be the first time a spacecraft has the opportunity to study the outgassing and behaviour of a comet as it orbits close to the Sun. So far the comet 67P/ Churyumov-Gerasimenko has been slowly increasing in...
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...
The true story of why Pluto isn’t a planet goes back further than you would think. It has a lot to do with our understanding of science at the time, and a lot more to do with surprising luck. I made this video a couple of days ago for the Khan Academy Talent Search. I hope you enjoy it. It will be interesting as we move into better telescope technologies that allow us to see further into the depths of the solar system and the universe. What strange mysteries will we find?
Since it’s landing made international headlines back in November as it landed on Comet 67P/Churyumov-Gerasimenko, the Philae lander has been in hibernation mode, not able to generate enough power to operate due to a lack of direct sunlight on its solar panels. But after 7 months, as the comet has come closer to the Sun, the increasing solar intensity has given it the boost it needed to wake up! “Philae is doing very well: It has an operating temperature of -35ºC and has 24 Watts available,” explains DLR Philae Project Manager Dr. Stephan Ulamec. “The lander is ready for operations.” The...
The Rosetta orbiter, currently studying comet 67P/Churyumov-Gerasimenko as it orbits the Sun, has been watching how the comet has changed as it moves toward its perihelion (point of closest approach to the Sun) in August of 2015. As the comet heats up from the increasing intensity of the Sun’s rays, it releases surface gases and dust into what eventually becomes the atmosphere-like coma surrounding the comet. As the comet moves the material produces the visible tail that we usually associate with a comet. With 67P specifically, Rosetta has recently made a surprising discovery: That the water and carbon dioxide streaming...