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...
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...
Gold doesn’t come from your local jewelry store, and the Gold rush that occurred in the Yukon territory at the turn of the 20th century is not the source I’m talking about either. I want to take it further back, to the origins of gold the element. Similar to the origins of most other elements on the periodic table, it requires an immense amount of energy, such as the nuclear fusion that goes on within a star. But Gold can not be made by a star’s thermonuclear engine. Gold requires more energy, as does every other element heavier than Iron. So...
The elements that make up our world and our selves, where do they come from? Sure there is plenty of Oxygen in the air, Silicon and Carbon are just lying around, and a bunch of other stuff can be found across our planet. but where did they come from originally? We know that most of the elements are synthesized within stars, but which ones aren’t? Which ones are made in a lab? The Big Bang gave rise to the first elements Hydrogen and Helium, which eventually clumped together to form the first stars and star producing the heavier stuff. Lithium,...
Exoplanets are light years away, hidden by their parent stars, and barely detectable. Yet even though most have never been directly imaged, we can study the light from the parent star as the planet passes in front of it, and use this information to learn about the planet’s size and composition, especially if it has an atmosphere. Once you know a little bit about how big and dense a planet is, and the major elements that form it’s crust and atmosphere, you can do a lot of Chemistry to figure out what it should be made of and how these...
After watching the SpaceX Falcon 9 rocket explode shortly after launch back in June, two things were going through my head. “How will they handle this disaster?” and “When will they return to flight?” The first question was answered in the weeks that followed as SpaceX CEO Elon Musk reported that the most likely cause of the accident was a failure in a second stage strut that held a high pressure helium tank in place. The second question could be answered this evening when the first Falcon 9 launch in six months takes place at Cape Canaveral. The last time a...
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...
A few hundred million years after the big bang, the first stars formed. We aren’t exactly sure how, but we do know that they contained Hydrogen, Helium, and a little bit of Lithium. These were the only elements in the entire universe at the time. Within these first stars, the fusion of heavier elements began. Oxygen, Nitrogen, Carbon, Iron, and all the other elements that make up everything we know formed Billions of years ago in these first stars and in their progenitors. It was a slow process to produce these elements and seed them throughout the cosmos, but over...
I’ve been saving this one for a few months, specifically for my Halloween post! This was such an interesting story, it was hard for me to pass it up before. There are ghosts in these distant galaxies! Look at the images above, and see the ghostly green figures. They are ionized Oxygen, helium, nitrogen, sulphur, and neon that has absorbed high energy radiation and slowly re-emitted it over thousands of years. The photoionized gas clouds in the images are tens of thousands of light years outside their host galaxies, so where did this high energy radiation come from? The answer, is...
One of the greatest scientific discoveries of all time came with the invention of the spectroscope by Joseph Von Fraunhofer in 1814. It enabled us to look out at the universe and realize that the same basic building blocks that made you and I and all other life, were the same things that make up everything else in the cosmos. The tiny atoms in our bodies all started out at the center of a massive star billions of years ago. So naturally, when we talk about the odds of life forming elsewhere, we have to include a study of where...