The first exoplanet ever discovered was 51 Pegasi b in 1995. It kicked marked the slow beginning of what would soon become the ‘exoplanet gold rush.’ It meant that for the first time, we had the technological capacity to discover new worlds, and science fiction soon became science fact. 51 Pegasi b was also a very strange planet. A massive Jupiter sized world orbiting very close to its home star. On one hand it was this characteristic that made it much easier to detect. On the other, it showed us that we did not understand planetary system formation as well...
In Canis Major, nearly 12,000 light years from Earth, lies an emission nebula that always makes me think of a particular comic book character. NGC 2359 is 30 light years across, and is colloquially known as Thor’s Helmet. The complex structure of Thor’s helmet consists of bubbles and filaments, and is due to a series of bursts from the massive star HD 56925. This star is a rare Wolf-Rayet star, which consistently expels its outer layers of gas at high velocities, and is characterized by its very high temperature. The blue bubble in the above image is a result of...
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...
Space Junk is a growing problem. Even though there is a lot of room in low Earth orbit, it’s estimated that 3,000 tons of space debris is floating around at different altitudes and speeds, posing a significant threat to present and future orbital infrastructure. The number of objects classed as space junk doubled in 2014 to 4000 individual pieces, mostly due to collisions between objects already in space. Most of this space junk is old derelict satellites and rocket bodies and engines leftover from 50 years of space exploration. Because of the wide variety of altitudes, trajectories, and speeds, it can...
When the first stars and galaxies started to form, it was like a spark of a massive chain reaction where the vast amounts of gas and dust that had clumped together were quickly converted into dense, luminous star clusters. This was the beginning of the formation of the heavier elements that would eventually make up all that we see on the planet Earth. But when did this massive tirade of star formation end? When we look at galaxies in the present epoch, most don’t form stars very rapidly at all, and giant elliptical galaxies are all but devoid of gas,...
100,000 Galaxies. Each one contains Billions upon Billions of stars. Each star could have planets, leading to countless possibilities of variation and the potential for life. But would we see the signs of civilization from Earth? Could a highly advanced civilization control the entire population of stars in their galaxy and harness that energy for their industry? Would they alter their stellar environment enough that we could see them? This is exactly the line of questioning that led astronomers to look at over 100,000 different nearby galaxies in mid-infrared emission to see some potential signs of Alien life. In these...
As the capsule separates from the first stage rocket, the second stage booster takes over and sends Dragon into orbit around the Earth to rendezvous with it’s target a few hours from now. At this point the mission is a complete success from NASA’s perspective, but to Elon Musk and the rest of the SpaceX team, the real challenge is just beginning. They have to land that first stage rocket on a 300 x 170 foot barge in the vast ocean, or risk losing millions of dollars in their investment. Here’s how it went. Okay not so well, but arguably...
Tis the season, as they say. This year is a good one for space missions with the March arrival of the Dawn spacecraft at Ceres and the July fly-by of Pluto by new horizons. Dawn made history by being the first ever spacecraft to orbit a dwarf planet, and new horizons will provide the first ever pictures of the surface of Pluto in unprecedented detail. I can barely contain my excitement, after having watched the launch of New Horizons live on NASA TV in 2006. I thought about what life would be like in 2015 and what Pluto would look...
No, he isn’t a zombie. He’s a long dead scientific pioneer. He discovered Saturn’s moon of Titan and was the first to suggest that Saturn’s odd ‘blob’ shape could be explained by rings around the planet. He was a pioneer of optics and developed a telescope with two lenses, more powerful than Galileos. He also characterized the motion of an ideal mathematical pendulum (with a massless cord and a length longer than its swing), and invented the pendulum clock as a method of keeping time. He had a few other contributions to astronomy, including the observation of individual stars in...
After yesterday’s post about some data that has caused us to rethink a theory, I wanted to follow it up today with an even bigger bit of data that could substantially change an even bigger theory. Dark energy was discovered as a large-scale repulsive force in the universe that is responsible for the acceleration of its expansion. It was discovered by looking at type 1a supernovae in distant galaxies. since the supernovae all explode with the same mass limit, they appear to all have the same intrinsic luminosity. If we know how bright they actually are, we can compare them...
