I just released a post about the Kepler Space Telescope and its observation of the shock breakout of an exploding star, the exact moment when it’s considered a supernova. Further to this I wanted to show some of the great visualizations of the event, and to show you just how energetic and luminous a supernova really is, compared to our Sun. The video shows the shock breakout, the bright flash lasting an hour, before the star rapidly increases in brightness to it’s maximum. Not shown is the gradual fading of the supernova, which can take days or even weeks....
The most violent single event in the universe is the death of a massive star, a supernova. We have seen several different types, though the common element is a massive explosion, taking a star hiding amongst the background into an eruption that outshines it’s entire host galaxy. We have seen the brightness grow and fade over the duration of a supernova event, but we have never seen one just as it’s starting. Until now. Would you ever have thought that the Kepler space telescope, a planet hunter that continuously observes stars, could see supernovae? The key is in the words ‘continuously observed.’ By keeping...
With the recent discovery of gravitational waves, we now have a target for probing the very early universe, close to the big bang. This is because gravitational waves can travel across the universe unimpeded, meaning those created after the big bang are still bouncing around today. It’s like the big bang was the ringing of a giant bell, and the ringing can still be heard. But all of our Easter eggs are not in one basket. There is another way to probe the very early universe, one we haven’t found yet, because it involves particles that are very tiny and...
In 2014, comet C/2013 A1, known as sliding spring, came within 140,000 Km of the planet Mars. This is a bit more than a third of the distance from the Earth to the Moon. Comets are small, so gravitationally this interaction was insignificant, but from an electromagnetic point of view, things were shaken up big time! Comets are small, relatively speaking. A typical comet is a few kilometers across, about the size of a big city. But with sunlight melting ices and liberating gases and dust from the comet’s interior, the part of the comet we see in the sky,...
We know that the giant bright light in the sky that keeps us warm is so much more than we can see. A star, like countless others in the sky, close enough to outshine all of them. The Sun is a dynamic object, endlessly churning and burping plasma beyond it’s boundaries into the solar system and beyond. NASA spacecraft and ground-based telescopes have been keeping eyes on the Sun for years to characterize its 11-year magnetic cycle. And every so often they have a front-row seat to the massive blasts that just can’t be seen with human eyes. The first...
I decided to take my own personal leap day on writing about the leap day. Partly due to being busy at work, and partly due to lack of mental faculties. All that aside, it’s only another 1,459 days until the next leap day, so we better start preparing. A leap year occurs because the solar system seems to slightly disagree with the way we manage time. Earth’s trip around the Sun, a year, doesn’t take exactly 365 days each lasting 24 hours. It takes a bit longer. A year is actually 8,765 hours, or 525,949 minutes, which is 365 days, 5...
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...
NASA has several orbiting spacecraft trained to study the Sun during it’s 11-year cycle. Recently the team of astronomers and scientists behind the Solar Dynamics Observatory (SDO) released a video showing a full year of activity on the Sun. You’ll want to crank this one up to 4K if you can, though it still looks spectacular in 1080p. It’s interesting to note that the bulk of the solar activity is along the rotational plane, which is the plane of the entire solar system. Also notice that as the days pass the Sun doesn’t rotate completely every day. This is because...
Gamma rays are the highest energy photons on the electromagnetic spectrum. Their wavelength is similar to the size of an atom, and when two of them collide they tend to produce a matter-antimatter particle pair. They represent energy high enough to synthesize the fundamental particles of matter, and are produced in the highest energy environments in the cosmos. The interchange of matter and energy works both ways, so one of the ways gamma rays are generated is through annihilation of a matter-antimatter particle pair. Looking back to the beginning of the universe it gives us the earliest ‘chicken or egg’...
