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Astronomy is one of the oldest scientific disciplines that has evolved from the humble beginnings of counting stars and charting constellations with the naked eye to the impressive showcase of humankind’s technological capabilities that we see today.
Despite the progress astronomy has made over millennia, astronomers are still working hard to understand the nature of the universe and humankind’s place in it. That question has only gotten more complex as our understanding of the universe grew with our expanding technical capabilities.
As the depths of the sky opened in front of our increasingly sophisticated telescopes, and sensitive detectors enabled us to spot the weirdest types of signals, the star-studded sky that our ancestors gazed at turned into a zoo of mind-boggling objects including black holes, white dwarfs, neutron stars and supernovas.
At the same time, the two-dimensional constellations that inspired the imagination of early sky-watchers were reduced to an optical illusion, behind which the swirling of galaxies hurtling through spacetime reveals a story that began with the Big Bang some 13.8 billion years ago.
Here is how the story of astronomy and our understanding of the universe evolved.
Most of today’s citizens of planet Earth live surrounded by the inescapable glow of modern urban lighting and can hardly imagine the awe-inspiring presence of the pristine star-studded sky that illuminated the nights for ancient tribes and early civilizations. We can guess how drawn our ancestors were to that overwhelming sight from the role that sky-watching played in their lives.
Ancient monuments, such as the 5,000 years old Stonehenge (opens in new tab) in the U.K., were built to reflect the journey of the sun in the sky, which helped keep track of time and organize life in an age that solely depended on seasons. Art pieces depicting the moon and stars were discovered dating back several thousand years, such as the “world’s oldest star map,” the bronze-age Nebra disk (opens in new tab).
Ancient Assyro-Babylonians around 1,000 B.C. systematically observed and recorded periodical motions of celestial bodies, according to the European Space Agency (opens in new tab) (ESA), and similar records exist also from early China. In fact, according to the University of Oregon, astronomy can be considered the first science (opens in new tab) as it’s the one for which the oldest written records exist.
Ancient Greeks elevated sky-watching to a new level. Aristarchus of Samos (opens in new tab) made the first (highly inaccurate) attempt to calculate the distance of Earth to the sun and moon, and Hipparchus (opens in new tab) sometimes considered the father of empirical astronomy, cataloged the positions of over 800 stars using just the naked eye. He also developed the brightness scale that is still in use today, according to ESA.
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During the Middle Ages, the science of astronomy continued to advance in Asia and the Islamic world. Islamic scholars kept building on the knowledge of the Ancient Greeks, expanding the catalog introduced by Hipparchus. They also developed new tools for measuring the positions of objects in the sky such as the quadrant and the sextant, according to ESA (opens in new tab).
The first true breakthrough in humankind’s exploration of the universe, however, arrived with the invention of the telescope in the 17th century (opens in new tab). Italian astronomer Galileo Galilei was an early adopter and developer of the technology, which enabled him to make major strides in the understanding of our solar system.
Called “the father of modern science” by no other than the great Albert Einstein, Galileo was able to sketch the surface of the moon, discover the main moons of Jupiter, find sunspots on the sun, and much more, thanks to the telescope.
The invention of the telescope supercharged astronomy. Despite the objections of the Catholic Church, the notion that Earth wasn’t the center of the universe but orbited the sun together with other planets and their moons could no longer be denied.
Astronomy at that time played a key role in helping seafarers and travelers navigate the globe, and so, first, government-funded observatories, the Paris Observatory (opens in new tab) and the Royal Greenwich Observatory (opens in new tab) were established in 1667 and 1675 respectively with the goal of building more accurate stellar maps.
In the 18th century, astronomers for the first time managed to calculate the distance of a nearby star, adding a third dimension to stellar catalogs.
The advent of photography in the 19th century simplified the charting of the night sky and the stellar position catalogs quickly grew from a few thousand to tens of thousands of stars, according to ESA (opens in new tab). The first photographs of the moon and sun were published in the 1840s followed by the images of the first star, Vega, about a decade later.
The discovery of spectroscopy (opens in new tab), a discipline analyzing the ability of matter to split light into different wavelengths depending on its chemical composition, opened new and completely unexpected avenues of astronomical research in the second half of the 19th century. With spectroscopy, astronomers could study the chemical composition of celestial objects, first of those nearby, such as the moon and the sun, and later the more distant ones, including other stars and even galaxies. Suddenly, astronomy was not only about where things were located in the universe but also about what they were made of.
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Hand in hand with the overall rocket-speed technological progress that the world has witnessed since the beginning of the 20th century grew the ability of astronomers to see farther and analyze more precisely.
In the early 20th century, fast improvements in telescope technologies led astronomers for the first time to question whether the Milky Way was synonymous with the universe or only one of many starry universes scattered in space. American astronomer Edwin Hubble (opens in new tab) solved this question in the 1920s when he managed first to distinguish individual stars in the Andromeda nebula, today known as the Andromeda galaxy, and eventually calculate their distances from Earth. These stars were so much farther away than anything else in our galaxy that Hubble concluded that Andromeda is its own Milky Way. A new, much deeper universe suddenly unfolded in front of astronomers’ eyes.
Other “nebulas” were soon confirmed as galaxies. Within a decade, astronomers realized that these nebulas were speeding away from Earth the faster the farther away they were, according to Science News (opens in new tab). This discovery led to the idea that the universe was expanding probably from the time of a giant explosion that had created it in the most distant past. The Big Bang theory was born.
The Second World War sped up technological progress even further, ushering in the era of spaceflight and exploration of the universe from space. What only a few decades prior would have been the stuff of science fiction was quickly becoming reality.
In 1957, the U.S.S.R launched the first-ever satellite, Sputnik. From then on, more and more complex scientific instruments would be installed on satellites and the picture of the orbital environment around Earth would start to emerge. In 1962, NASA’s Mariner 2 became the first spacecraft to visit another planet, Venus, and in 1964, the first radio astronomy satellite, the U.K.’s Ariel 2 (opens in new tab), made it into orbit.
The space race of the 1960s culminated with the successful moon landings of the Apollo program. Scientists on Earth could, for the first time, hold in their hands’ pristine pieces of rock from another celestial body. The U.S.S.R celebrated its own successes with the lunar rover Lunokhod, which analyzed 25 lunar soil samples with its onboard instruments.
In 1968, NASA launched the Orbiting Astronomical Observatory 2 (opens in new tab), nicknamed Stargazer, the first attempt to study the wider universe from space, according to USA. Today (opens in new tab). Only a year later, plans for the Hubble Space Telescope started to shape up, although it would take more than two decades to get the grand telescope off the ground.
Since then, dozens of probes have been sent to study bodies in the solar system including planets, comets, moons and asteroids. Space telescopes, together with ever more powerful ground-based telescopes have revealed the star-studded sky in detail that the ancient tribesmen would never be able to even imagine.
The James Webb Space Telescope (opens in new tab), launched on Christmas Day 2021, represents the pinnacle of this eternal endeavor that started thousands of years ago and grew from humble beginnings. Yet, the more astronomers see, the more questions are arising and the answers to the grand questions of the nature of the universe and our place in it remain elusive.
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In the past century or so, astronomy has been broadly split into two camps — observational astronomy (using telescopes and cameras to collect data about the night sky) and theoretical astronomy (using that data to analyze, model and theorize about how objects and phenomena work).
They complement each other, yet within these two broad categories, modern astronomy includes many subsets, from astrometry to exoplanetology, that intrinsically overlap yet help explain the many things astronomers do. Here’s what they all mean:
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All astronomy is the study of different wavelengths of the electromagnetic spectrum, which comprises radio, microwave, infrared, visible, ultraviolet, X-ray and gamma rays. To get the full picture of what’s out there astronomers need to study various wavelengths of light.
Optical astronomy is the study of celestial objects using telescopes that observe visible light. Infrared light can be detected outside of the Earth’s atmosphere, so by space-based observatories like the Hubble Space Telescope and the James Webb Space Telescope. Radio astronomy is the study of the sky in radio frequencies; radio telescopes detect and amplify radio waves from space.
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However they observe the universe, astronomers only ever get a snapshot of the planets, stars and galaxies they study. So although there are dozens of different branches of astronomy, in practice many of them must overlap for an astronomer to get as full a picture as possible of objects that exist for millions to billions of years.
We’re on the cusp of some tremendously exciting new technology that looks set to revolutionize astronomy. In addition to the James Webb Space Telescope a range of ground-breaking Earth-based telescopes is set to come online within this decade including the Vera Rubin Observatory all-sky survey, the Extremely Large Telescope and the Square Kilometre Array, the world’s largest radio telescope.
Astronomers are about to see deeper into space to observe regions and objects never seen before.
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Astronomy and astrology have grown from the same roots. Ancient civilizations and early tribesmen believed that the sky held power over their lives and that by observing the motions of celestial bodies, one could learn about the future.
The close bond between the two disciplines survived millennia. During the renaissance period, astronomers were frequently hired as personal advisers to monarchs to advise on decisions based on the positions of stars and planets, according to Astronomica (opens in new tab).
But as the scientific method grew in strength over the subsequent centuries, astronomy and astrology have grown apart. While astronomy has become the domain of no-nonsense data-driven observations and verifiable predictions relying on the most cutting-edge technology, astrology was reduced to the realm of new-age superstition where considerably less educated future predictors use glass crystals and simplistic star charts to predict the path of a person’s life.
In fact, astronomers point out, that due to the irregularity of Earth’s orbit, the position of the sun within the zodiac signs, which form the backbone of western astrology and which were identified centuries ago, no longer matches the actual position of the sun. So while you may have been told you were born in Taurus, you actually could have been born in Aries.
If star-gazing is your calling and you think of making it your life’s path, you can find some useful insights about what it takes to be an astronomer on the website of the International Astronomical Union (opens in new tab). The Royal Astronomical Society also has many useful resources in its Careers (opens in new tab) section.
If you are already further down the path and looking for a suitable opening based on your qualifications, the American Astronomical Society lists all kinds of openings all over the world on its jobs register (opens in new tab) site.
If you wonder how much you’d earn in an astronomy-related career, the SciJournal lists ten highest paying astronomy jobs (opens in new tab).
Read this detailed three-part series by the European Space Agency about the history of astrometry (opens in new tab) from the earliest times, to the emergence of telescopes (opens in new tab) to modern space-based observations (opens in new tab). This ScienceNews feature (opens in new tab) tells the story of the major leaps in astronomers’ understanding of the universe in the first half of the 20th century. This article by the Royal Society provides a detailed overview of the evolution of astronomy in the post-war era (opens in new tab). To learn more about the early days of the telescope and the role of Galileo Galileo in shaping modern astronomy, check this article by the Library of Congress.
European Space Agency, A history of astrometry – Part I – Mapping the sky from ancient to modern times, September 1, 2019
European Space Agency, A history of astrometry – Part II – Telescopes ignites the race to measure stellar distances, September 1, 2019
European Space Agency, A history of astrometry – Part III – Astrometry moves to space: The mapmakers guide to the galaxy
The Royal Society, A brief history of astronomy, astrophysics and cosmology 1945-2000, June 9, 2022
ScienceNews, In 20th century, astronomers opened their minds to gazillions of galaxies, February 2, 2017
Library of Congress, Galileo and the Telescope, https://www.loc.gov/collections/finding-our-place-in-the-cosmos-with-carl-sagan/articles-and-essays/modeling-the-cosmos/galileo-and-the-telescope