We live in a galaxy, the Milky Way, and when we peer out with our augmented telescopic eyes, we see galaxies everywhere we look. We see big ones, small ones, richly detailed spirals, and bulbous ellipticals. We see loner galaxies off on their own, galaxies that have captured smaller ones that wandered too close, and massive clusters with hundreds to thousands of galaxies swarming around one another. We are surrounded by galaxies in all directions, billions of them. So you would think we’d have a pretty good idea of how they got there. You’d be wrong. For as much as we’ve deduced about how the universe was born and evolved, we know surprisingly little about these ubiquitous structures.
Let’s start with what we do know. Galaxies started forming in the very early universe, just a few hundred million years after the Big Bang. The first ones were born out of halos of dark matter—a substance that astronomers still don’t understand but that interacts with visible matter (atoms like those in you and me) solely through gravity. These were not halos in the angelic sense, but rather quasi-spherical conglomerations on scales beyond our comprehension. The dark matter pulled together huge amounts of atoms, creating regions dense enough for nuclear fusion to ignite again and again, giving birth to stars, more stars, and eventually galaxies. At least, that’s what the leading theory says. These galaxies then grew and attracted other newly formed galaxies into clusters and superclusters, where they danced around one another, sometimes doing dangerously close fly-bys, sometimes colliding, sometimes merging. Some of them underwent traumatic processes such as galaxy harassment, stripping, strangulation, and even cannibalism—things that sound like they apply more to a violent criminal than to a galaxy.
Edwin Hubble, of the eponymous telescope, was the first to devise a classification scheme to attempt to make sense of the variety of nearby galaxies. In the 1920s, Hubble spent night after night taking pictures of the heavens with the 100-inch telescope at Mount Wilson Observatory near Pasadena, Calif. In Hubble’s day, the notion that other galaxies existed was debatable. But some astronomers theorized that the fuzzy objects they observed were just that. Hubble grouped his observations of what were later recognized to be galaxies according to their shape: elliptical or spiral.
For a long time Hubble’s system seemed to cover all the bases: Galaxies seemed to slot easily into each category and even into each subcategory. So easily, in fact, that we thought we had it all figured out. But with more and more observations, we find there are numerous galaxies that seem to defy characterization. Hubble somewhat anticipated this by adding a category for “irregulars.” We now know that the majority of irregular galaxies are actually interacting galaxies, gravitationally pulling each other apart into all sorts of odd shapes.
We also know there are more to galaxies than just stars. Until the middle of the 20th century, telescopes that detected visible light were the only game in town. With data from modern telescopes that collect light across the electromagnetic spectrum, we now know that in addition to stars, galaxies contain varying amounts of gas and dust, not to mention plasma, black holes, superheated jets, shock waves, and much more. The relative amounts of stars, gas, and dust revealed by infrared, ultraviolet, and X-ray light provide more detailed systems for classifying galaxies.
One such system is based on a galaxy’s color. Galaxies with lots of gas appear blue because they are dominated by regions of active star formation and hot, young stars. Galaxies with very little gas and filled with older, cooler stellar populations appear “red and dead” (yes, that’s the technical term). Most blue galaxies look like spirals and most red galaxies are elliptical in shape, therefore spirals are young galaxies and ellipticals are old: Spirals must evolve into ellipticals, right?
Maybe. Astronomers are studying how spiral galaxies could run out of gas, literally and figuratively, and turn into ellipticals. Exactly how this transformation takes place is still a mystery. Does losing its gas cause a galaxy to become an elliptical? Or does becoming an elliptical cause it to lose its gas? Which came (or went) first, the gas or the galaxy?
A major stumbling block for astronomers is that galaxies evolve on time scales that dwarf a human lifetime, let alone the career of the average astronomer. Every stunning picture of a galaxy you’ve seen represents the tiniest fraction of that galaxy’s existence. We have no way of physically watching a galaxy grow and change over time. To compensate, we observe as many galaxies as possible in the hopes of capturing every stage that can happen in a galaxy’s life. You can think of it like going to Times Square on New Year’s Eve and photographing every single person in order to extrapolate the phases of human life, from infant to senior. But while photos taken in Times Square capture people as they are over a couple hours, photos of the universe record galaxies as they were over billions of years.
Looking out into space is equivalent to looking back in time. While light travels tremendously fast, it still has to obey the speed limit: 671 million miles per hour. So if we look at a star 671 million miles away, we see it not as it is now, but as it was an hour ago. We see everything in the universe as it was in the past, delayed by however long the light takes to reach us. And for galaxies, that doesn’t mean hours, it means millions or even billions of years. Our nearest neighbor, the Andromeda galaxy, is more than 14 quintillion miles away from Earth. We see Andromeda as it was 2.5 million years ago. This means our galactic photo album captures not how galaxies look today, but how they looked at various points in time.
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