When I report science news, discuss new discoveries, and get excited about new results, it can be difficult to hear that little voice in the back of my mind that says ‘reproducible results.’ It’s the voice of the pure scientist that reminds me to be critical of the things I read, and be open to critical review for the things I write and say. Any result isn’t worth the paper it’s printed on unless it can be independently reproduced. This is a key to scientific advancement. If the result can’t be reproduced, then something is wrong. It may be an error with...
In the early Universe, things were quite different. The first stars were much more massive than stars today, and contained mostly Hydrogen. Astronomers have good ideas about how they formed, but other objects from around this time, namely black holes, are much tougher to account for. Early black holes were huge, with no explanation for how they grew so large. “Early” means “first Billion years after the Big Bang,” but even in that time, it’s hard to determine how observed black holes could grow as large as 100,000 solar masses. I say 100,000 solar masses, because that is the mass of two ‘seed’ black holes, discovered...
Dark matter could be almost anything. With little data other than how much total dark matter mass exists, we can’t decode much about what individual chunks of dark matter might be made of. I’ve talked before about Massive Compact Halo Objects (MACHOs) and Weakly Interacting Massive Particles (WIMPs), but these are just two possibilities. Other theorists have talked about Modified Newtonian Gravity (MNG), where gravity may work differently on the grand scale than it does on our small Earth scales. Or perhaps it’s something I haven’t seen before. Maybe what we call dark matter is just a large population of ancient black holes....
Where do the heavy elements on the periodic table come from? The general answer is from what’s called the r-process of stellar nucleosynthesis. This translates to ‘rapid neutron capture’ being the method by which most of the elements heavier than Iron are formed on the periodic table. This process requires immense energy and was originally thought to only occur within core-collapse supernova explosions. “Understanding how heavy, r-process elements are formed is one of hardest problems in nuclear physics,” said Anna Frebel, assistant professor in the Department of Physics at the Massachusetts Institute of Technology (MIT) and also a member of...
One of the most important questions our species has tackled is the origin of life on Earth. If we can figure out the conditions and catalyst for the beginning of life, we can look elsewhere in the universe for those same conditions, and zero in on the potential for finding extraterrestrial life. We know the universe is old enough for the painstakingly slow evolutionary process, but what started it? In the famous 1952 Miller-Urey experiment, a flask containing the basic natural elements water (H20), methane (CH4), Ammonia (NH4), and Hydrogen (H2), all present on the early Earth, was subjected to...
A pretty cool result came out of Cornell University this week, showing that Mars was struck by a pair of ancient asteroids that caused massive tsunamis. Not only is it the first evidence of a tsunami event on another world, but it proves that Mars once had a large ocean. The study looked at ancient shorelines between the lowlands and highlands of Mars, where the ocean-land boundary would have been. Two massive impacts, a few million years apart, extended the shorelines and caused turmoil with the Martian climate at the time. “About 3.4 billion years ago, a big meteorite impact triggered...
I always get giddy when talking about Europa, as many astronomers do. It’s one of the most fascinating places in our solar system when it comes to the search for life. It has lots of water, likely contained in a subsurface ocean. It’s heated though a gravitational tug of war with Jupiter and the other Galilean moons. And, as of recently, it has a chemical production system that matches Earth’s. I wonder what goes on beneath the thick ice of Europa. Is there an ecosystem filled with alien life down there? Life in Earth’s oceans feels very alien, but creatures from...
Space dust hits the Earth every day in the form of meteorites. As much as 300 tonnes of the stuff falls to the Earth each day. Of course, most of it is dust or small rocks, and goes unnoticed by the majority of people. But every so often, a larger rock plummets to Earth, and if it’s big enough, it will make it’s presence known. One such meteor flew through the atmosphere less than 48 hours ago in the Northeast USA. The bright flashes occur when a space rock, called a meteoroid, hits the atmosphere of the Earth, which rapidly...
This guy is everything you expect in an astronaut. At least that was my first thought when I was looking at his biography. David St. Jacques was one of only two candidates (along with Jeremy Hansen) chosen in the 2008 Canadian Astronaut draft, the third in our nation’s history. He has a degree in Engineering Physics, a Ph.D. in Astrophysics, and is a medical doctor. And that’s just his formal education. He’s an avid mountaineer, cyclist, skier, and sailor. Not to mention his advanced certification as a scuba diver, his commercial pilot’s license, and his ability to converse in Russian, Spanish, and Japanese. And so...
On the heels of my last review, I watched another movie with a space-documentary theme. Though it started out with the human perspective from space, it progressed into so much more. This is the TVO documentary called Planetary. It began with Apollo. Humanity broke the bonds of our world and set foot on another heavenly body. For the first time, we could look back and see the world as it truly is. One of my favourite quotes from the movie came up early, though I’m paraphrasing: We are the Earth, and the Earth is all of us. Seeing the Earth...