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I woke up this morning thinking about the latest discoveries of planets around other stars. Astronomers are using a variety of techniques to find them, and totals are racking up quickly. Most of the planets that have been found are "Jupiter-like," meaning they are gas giants with huge atmospheres. They're relatively easy to find because of their size. Worlds like Earth (the terrestrial worlds) are smaller, and tougher to spot. But because astronomers have been able to spot the environments in which planets form around stars (that is,in clouds of gas and dust), it's pretty likely that there are many terrestrial planets out there, too. We just have to dig into those clouds and come up with the planets. Which will take time and some sophisticated astronomy search methods.
Yesterday, the Spitzer Space Telescope folks released news that Earth-like planets might form around many of the closest Sun-like stars.This orbiting telescope, which is sensitive to infrared light (think "warmth") was used to study dust envelopes around nearby stars. These are warm places. Dust closer to the star is hotter than dust farther away from the star, the warm dust is a fair indicator of the types of materials that form rocky planets—that is, Earth-like worlds.
Such discoveries always lead to the old question, "Is there life out there?" It's a fair one to ask. For now, the definitive answer is "No." But, that's because we haven't seen the evidence for any other life out there. Yet. We don't have communications from that life, or pictures of it, or any other manifestations of it that we recognize as a definite "signal." But, if it's out there, there's some chance that we'll detect it. Some day.
So, what I woke up thinking about was what life on OUR planet will be like once we discover life somewhere else. Will it change us in some non-physical way? Will our thinking change about life? About politics? Religion? Education? Science? The way we treat our own planet?
Life from "Out There"—Threat or Learning Experience?
The concept of life elsewhere is a major staple of science fiction stories. Depending on the story being told, the life from "out there" can be threatening, friendly, super-intelligent, simple, primitive, or depicted as being far beyond what we can comprehend. In reality, the life we find beyond Earth will likely be some combination of these factors, and perhaps look nothing at all like what we expect. How that life will act? Well... like we do with our deities, humans have painted aliens with a palette of characteristics that we most admire and/or fear in ourselves. When we DO get to meet other forms of life, the experience may teach us a bit more about respecting the life forms we share Earth with.
Wonder about why I say that? Consider for a moment what humans and human activity (such as whaling) looks like to the cetaceans that inhabit our planet. Or, think about what our planet might look like to alien visitors who come in search of us and they find how we've treated our environment.
These may be extreme examples, but the point I'm trying to make here is that the search for intelligent life (and other planets) isn't one-sided. If there's somebody out there looking for life elsewhere, and they find US, will we inhabit their worst nightmare or exemplify their fondest wishes? Either way, the possibilities are thought-provoking.
If you've been a reader of this site for long, you probably wondered when I'd get to starbirth in this list of seven cosmic wonders. Wait no longer—here it is!
The Pillars of Creation, as seen through Hubble Space Telescope. Here, young stars are forming inside cocoons of gas and dust; someday they'll eat their way out, lighting up more of the cloud that gave them birth.
Starbirth is one of the great recycling mechanisms of the cosmos. It takes material that is floating around in interstellar space and, under the right conditions, coalesces that material into a star. The process is incredibly long compared to human life spans. Our own star began forming some 4.6 billion years ago. It will live for another 5 billion years and eventually evolve to a white dwarf star. Before it does, the Sun will swell up to become a giant star, shed most of its mass, and then slowly cool and shrink. All that material that it sheds will populate the interstellar medium, perhaps becoming part of new stars in the distant future. Supernova explosions also return elements to space, and those too will become part of new stars and planets.
NGC 1333, a cluster of stars being born more than 1,000 light-years away. They are still embedded in the cloud of gas that gave them birth. Left, from Spitzer Space Telescope. Spitzer is able to see through the cloud of gas surrounding these stars to see the cluster hidden within. At right is visible-light view of the same cluster.
Regions of starbirth are nearly everywhere we look in our own galaxy and in countless other galaxies, too. Astronomers study them in just about every wavelength of light possible, although infrared-enabled observatories and instruments have the best chance of peeking into the stellar creches to watch the process of stars being born.
The Orion Nebula, as seen by Hubble Space Telescope. Hundreds of young stars are forming here, along with dozens of brown dwarfs, objects too cool to be stars and too hot to be planets.
The closest starbirth region that most of us have heard about is the Orion Nebula, some 1,500 light-years away in the constellation Orion. If you look closely at a blow-up of this image, you'll see swirls of clouds, and what look like jets emanating from some of the new stars. Newborn stars are chaotic, and they sculpt their birth nests as they form. They also light up their surroundings, creating reflection nebulae—clouds of gas and dust that glow in the reflected light. However, those clouds also give off infrared light because they're being heated by the nearby stars. So, I give you a glimpse into the mysterious realms of starbirth, a process that is itself one of the seven wonders of the universe.
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