Space discoveries from the year you were born

Written by:
September 27, 2019
NASA // Wikimedia Commons

Space discoveries from the year you were born

Earth-bound humans have long looked into the sky and wondered. Twinkling stars, moving planets, and shooting astroids prompted scientific inquiries and discoveries, slowly shaping our understanding of the universe and Earth's place in it.

Perhaps no heavenly object has captivated us like the moon. Today, NASA announced its latest discovery: water on the lunar surface. The space agency's Stratospheric Observatory for Infrared Astronomy (SOFIA) used a powerful telescope to pick up the presence of water molecules in the sunny Clavius Crater, bringing us a step closer to understanding our closest celestial neighbor in our long journey to know the cosmos. 

The 20th century saw a huge leap in astronomical discoveries and the advent of space exploration, both driven by advances in technology. Astronomy and space provide some of the biggest science news in any given year. Humans love finding out new things about the universe we inhabit. The year you were born may have had a profound discovery, a landmark advance in human spaceflight, or simply the birth or death of someone who changed the way we see the cosmos.

Stacker set out to find the most notable space discoveries from over the last century. Some of the stories included here were selected to make sure certain important topics got covered, but many years required a difficult choice. Also, certain stories that didn't pan out—like the "alien microbes in a meteorite" headlines from 1996—aren't included, even if they received the most media attention that year. Finally, we only realized the full importance of some stories years after the fact, so Stacker has counted a few discoveries that didn’t make a big splash at the time but we now acknowledge as significant.

From the moon landings to learning how stars shine to realizing the universe is big—really big—the past 100 years have been a wild time. Here are just a few of the major discoveries in the years 1919 through 2018.

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1919: Albert Einstein's theory of gravity passes its first big test

British astrophysicist Arthur Eddington led an expedition to the African island of Principe to test Albert Einstein's theory of general relativity. According to that theory, gravity from the sun should bend the path of light from distant stars, but that prediction can only be tested during a total solar eclipse when sunlight is blocked by the moon. Eddington and his team found stars appearing in different positions than they would normally, exactly as predicted by relativity.

1920: Taking the measure of Betelgeuse

Betelgeuse is one of the brighter stars in the night sky, visible as part of the constellation Orion. Americans physicist Albert Michelson and astronomer Francis Pease used a special device known as an interferometer (of the same basic type as the LIGO gravitational wave detector) to measure the diameter of Betelgeuse. This is the first time such a measurement was made for a star other than the sun and showed Betelgeuse to be a supergiant star large enough to engulf the inner solar system.

1921: RIP Henrietta Leavitt, who taught how to measure the cosmos

Henrietta Swan Leavitt was an astronomer at Harvard College Observatory, hired as a "computer" assistant to the male researchers. However, her skill led her to discover a relationship between the brightness of certain stars called Cepheid variables and the length of their fluctuation cycle. Leavitt's discovery led directly to some of the most important observations in 20th-century astronomy.

1922: Formal definition of constellations

Many cultures identify constellations, relating them to mythology and using them for navigation. The International Astronomical Union (IAU) formally divided the sky up into 89 constellations with clear boundaries in 1922 as an aid to observers. Eight years later, the IAU removed Argo from the list to give us the modern 88 constellations.

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1923: Birth of Alan Shepard, first American in space

American astronaut Alan Shepard was born on Nov. 18, 1923. After serving in the United States Navy during World War II, he joined the original astronaut corps, becoming the first American man in space in 1961. Subsequently, he piloted the Apollo 14 lunar module, becoming the fifth person to walk on the moon.

1924: Hubble demonstrates other galaxies exist

American astronomer Edwin Hubble identified a Cepheid variable star in the Andromeda nebula, and used Henrietta Leavitt's discovery about these stars to determine the distance. He found the nebula was much farther away than the most distant known star in the Milky Way, firmly establishing that Andromeda was a separate galaxy. Hubble's discovery settled a centuries-old debate over whether the Milky Way constituted the entire universe, inaugurating the field of extragalactic astronomy. Hilariously, the Times misspelled Hubble's name.

1925: Cecilia Payne shows that stars are mostly hydrogen

British-born astronomer Cecilia Payne applied recent discoveries in the physics of gases to understand the spectrum of light emitted by stars. She learned that all stars are primarily made of hydrogen, despite their diverse appearances. Her 1925 doctorate thesis describing the 18 most abundant elements in stars set the stage for stellar astronomy for the rest of the century.

1926: Robert Goddard builds first liquid-fuel rockets

American physicist Robert Goddard devoted much of his spare time and energy to building rockets. The major triumph of this research was the first successful liquid-fuel rocket (nicknamed "Nell"), which used gasoline and liquified oxygen. Goddard's basic design was modified and improved by many subsequent rockets, and today he is recognized as one of the most important pioneers of rocketry.

1927: LeMaître calculates how the universe expands

Based on Einstein's general relativity, Belgian physicist/Catholic priest Georges LeMaître determined that galaxies should be moving farther apart, carried along by the expansion of spacetime. This led him to determine that farther galaxies would appear to be moving faster than closer ones, anticipating Hubble's observational discovery two years later.

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1928: Prediction of antimatter

British physicist Paul Dirac sought to combine the quantum theory of electrons and atoms with Einstein's theory of relativity. He discovered the merger naturally led to the prediction of positrons (confirmed experimentally in 1932): particles with the same mass as electrons, but opposite electrical charge. Other particles turned out to have antimatter partners as well, which led to exciting discoveries in cosmic ray astronomy and the study of the early universe.

1929: Galaxies are speeding away from us

Expanding on his earlier observation of Cepheid variable stars in other galaxies, Hubble and Milton Humason discovered an apparent Doppler redshift—a stretching of light due to fast motion, like the change in pitch of a siren as an ambulance passes. The size of the redshift was larger for more distant galaxies, indicating that galaxies on average are getting farther apart. This was observational evidence for LeMaître's calculation of 1927, which was not widely known at the time, so the discovery is often known as "Hubble's law."

1930: Discovery of Pluto

Percival Lowell, a wealthy eccentric, funded a hunt for "Planet X" beyond the orbit of Neptune, believing it to be at least the size of Earth. In 1929, the task to find this hypothetical world landed on astronomer Clyde Tombaugh, who found Pluto after a year of searching. Though the initial estimates of its size were far too big (it's smaller than the moon), Pluto was the farthest known world from the sun for many years.

1931: The original Big Bang theory

Following Hubble's 1927 discovery of the expansion of the universe, LeMaître's theoretical work captured the attention of the larger astronomical community. He pointed out the implications of an expanding universe: in the distant past, everything must have been compressed together. LeMaître called this origin the "primeval atom"; today we call it the Big Bang.

1932: Discovery of carbon dioxide atmosphere on Venus

Venus is nearly Earth's twin in terms of size and mass, which led astronomers to wonder how Earth-like its atmosphere might be. American astronomers Walter S. Adams and Theodore Dunning found instead that Venus' atmosphere is made mostly of carbon dioxide at high pressure by analyzing the spectrum of light absorbed by those molecules. This indicated that planets of similar size can vary wildly in terms of atmosphere—and habitability.

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1933: First cosmic radio waves announced

In the early 1930s, Bell Laboratory engineer Karl Jansky had been assigned the job of identifying sources of interference for radio transmissions. He built a huge antenna on a turntable and found a persistent "hiss" coming from the center of the Milky Way: the first time radio waves were found coming from outer space. While Jansky's job didn't permit him to follow up on his discovery, he is acknowledged today as the originator of radio astronomy.

1934: The violent ends of stars

Since ancient times, astronomers have observed "new stars" ("novae") in the sky that would brighten, then fade away. Astronomers Walter Baade and Fritz Zwicky proposed that some of these events were the explosions of giant stars, which they called "super-novae" (supernovas). They also predicted the end result of these explosions would be neutron stars: small, dense bodies made of the same stuff as atomic nuclei.

1935: Invention of radar

In the mid-1930s, nations raced to be the first to perfect using radio waves to detect aircraft, culminating in radar: radio detection and ranging. While the first implementations were kept a secret, eventually radar became essential to astronomy. Radar provided the first images of asteroids, precision measurements of how far planets are and how fast they rotate, and much more.

1936: Earth's core revealed to have two parts

Danish geophysicist Inge Lehmann used seismic (earthquake) data to show Earth's core consists of two layers: a molten outer core and a solid inner core. Prior to her work, geophysicists believed Earth's core was entirely molten, but Lehmann demonstrated that seismic waves were traveling through the planet's fluid interior and reflecting off the solid inner core. This discovery had profound implications for the understanding of planetary structure.

1937: Grote Reber builds the first steerable radio telescope

American engineer Grote Reber was the first person to follow up on Karl Jansky's discovery of astronomical radio waves. In his spare time, and with help from local auto mechanics, he built a radio telescope in the vacant lot next to his mother's house in Wheaton, Ill. Over the next few years, he created the first radio map of the Milky Way; his telescope now resides at the National Radio Astronomy Observatory in Green Bank, W.V.

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1938: Why do stars shine?

Physicist Hans Bethe was a refugee from Nazi Germany who settled in the United States. Using the new theories of nuclear physics, he and Charles Critchfield calculated the conditions for nuclear fusion inside stars. The resulting pair of papers (one written together, one by Bethe alone) established the theory of stellar nucleosynthesis, which explains why stars shine.

1939: Description of neutron stars and black holes

American physicist J. Robert Oppenheimer is best known for leading the scientific arm of the Manhattan Project, but his interests were wide-ranging. With his student George Volkoff, he estimated the maximum mass a neutron star could have before collapsing. In a second groundbreaking paper from the same year, Oppenheimer and another student, Hartland Snyder, determined that a sufficiently massive object would collapse into a black hole—an object so dense nothing can escape from it.

1940: First plutonium created in lab

As physicists learned how to manipulate nuclear reactions, they began to push beyond the known elements of the periodic table to identify previously unknown substances, including plutonium. The element's existence was kept secret during World War II, but it was used in the nuclear bomb dropped on Nagasaki, Japan. Today, plutonium is a vital ingredient in nuclear batteries powering robotic space probes, including the New Horizons spacecraft and the Curiosity rover on Mars.

1941: RIP Annie Jump Cannon, classifier of the stars

Astronomer Annie Jump Cannon, like many other female astronomers of the era, had been hired as an assistant to men, but managed to establish herself as an important researcher. Among other achievements during her time at Harvard College Observatory, she established a system of classifying stars based on the spectrum of light they emit. Cannon’s system is still used and taught today: When someone refers to the sxxun as a G-type star, it’s thanks to Cannon.

1942: Radio waves detected from Sun

During World War II, radar operators in England were troubled by a significant amount of radio wave interference, which they at first interpreted as deliberate jamming by Germans. However, British astronomer James Stanley Hey noticed this interference coincided with a large sunspot group, which was the first evidence of the sun being a significant source of radio waves. Due to the hush-hush nature of radar during the war, Hey was unable to publish until later, by which time Grote Reber had also observed the sun in radio light.

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1943: Discovery of the weirdest star in the universe

In 1943, a blue supergiant star was identified in the constellation of Sagittarius and given the official designation FG Sagittae. Like many giant stars, its light varied as the surface of the star pulsated, but this one was weird: Over several decades it grew bigger and cooler, changing color to yellow, then orange. While this kind of swelling and variability are expected, it usually takes place over thousands or millions of years, not decades, and astronomers are still unsure what’s going on.

1944: Discovery of Titan's thick atmosphere

Most moons in the Solar System lack a significant atmosphere, but in 1903 Spanish astronomer Josep Comas i Solà noticed Saturn's moon Titan seemed to be dark around the edges, as it would be if it had an atmosphere. Dutch-born American astronomer Gerard Kuiper followed up these observations by studying the spectrum of light reflected from Titan. He found the telltale signature of methane and estimated the moon had a thicker atmosphere than Earth's, a result borne out by later observations and robotic spacecraft.

1945: How the war changed astronomy

The end of World War II had many implications for astronomy and space exploration. The nuclear weapons used by the United States led directly to the Cold War, which boosted investment in science around the world and drove the "space race" of the 1950s and '60s. In addition, the U.S. recruited Nazi rocket engineers, including Wernher von Braun, who designed the V-2 rockets that bombarded the U.K. and the Saturn V rocket that carried Apollo 11 to the moon.

1946: Bouncing radar off themMoon

Using modified equipment from World War II, the United States Army Signal Corps sent radar signals to the moon and measured how much of those signals returned to Earth. This effort, called Project Diana, was primarily used to see if communications could penetrate Earth's atmosphere. As a result, radar became an important tool for mapping the surface of Venus, which is opaque in visible light.

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1947: Dark birthplace of stars

Astronomers Bart Bok and Edith Reilly identified dense clots in the Milky Way as potential nurseries for stars. These relatively small nebulas, which are (thanks to sexism) called Bok globules, are opaque in visible light, but are concentrations of hydrogen gas and the carbon-rich chains of molecules simply known as dust. Later infrared observations proved the stellar nursery hypothesis correct.

 

1948: How the first atoms formed in the Big Bang

American physicist Ralph Alpher and Russian-American physicist George Gamow used nuclear physics to calculate the relative amounts of hydrogen, helium, and a few other elements formed in the first few minutes after the Big Bang. While they failed to explain the abundances of heavier elements (which later were shown to be made by nuclear fusion in stars), they provided a new way to test the Big Bang theory. Gamow jokingly added Hans Bethe to the author list of the paper, so it is known as the Alpher-Bethe-Gamow (alpha-beta-gamma) paper.

1949: First monkey in space

Following World War II, the United States began spaceflight experiments using V-2 rockets captured from the Nazis. These tests included sending fruit flies into space (in 1947) and the first X-ray astronomy experiment (1948). Albert II, a rhesus macaque, became the first monkey in space in 1949, though he died when the rocket crashed after reentry (the history of animals in spaceflight is checkered).

1950: Where do comets come from?

Many comets have extremely long orbital periods and can approach the sun at any angle (unlike the planets, which all orbit in a nearly flat plane). From these facts, Dutch-born astronomer Jan Oort concluded long-period comets didn't form in the orbits they currently occupy, but instead were born in a cloud of icy objects far from the sun. This cloud is known as the Oort cloud today in his honor and forms the outermost region of the solar system.

1951: First measurement of cosmic hydrogen gas

Thanks to the discoveries of Cecilia Payne and others, astronomers knew the universe was mostly made of hydrogen atoms; however, most of that was in the form of cold gas, which doesn't emit any visible light. Astronomers realized that it does emit radio waves of a wavelength of 21 centimeters. American astronomers Harold Ewen and Edward Purcell detected light of this wavelength coming from hydrogen gas in the Milky Way, which led to the first maps of the spiral structure of our galaxy.

1952: The atmospheres of Uranus and Neptune

German-born physicist Gerhard Herzberg was a veritable wizard at understanding the spectrum of light from molecules. In 1952, he solved the mystery of an unidentified feature in the atmospheres of Uranus and Neptune: it was coming from hydrogen molecules under high pressure. This discovery helped establish the chemistry of the outermost giant planets in the Solar System, which was confirmed by Voyager 2 in the 1980s.

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1953: Amateur astronomer spots a meteorite hitting the moon

On the morning of Nov. 15, 1953, American amateur astronomer Leon Stuart photographed a bright flash of light coming from the moon. He believed he had seen a meteorite striking the moon, which would be the only time anyone had witnessed such an impact. Later observations revealed a possible small crater on the moon that could very well have resulted from Stuart's event.

1954: Meteorite hits napping woman in Alabama

Ann Elizabeth Hodges of Sylacauga, Ala., was taking a nap on her sofa when a meteorite crashed through her roof and struck her on the hip. She was bruised badly, but recovered. She remains the only person even known to be hit by a rock from space, which (depending on your perspective) makes her either extraordinarily lucky or unlucky.

1955: RIP Albert Einstein

Albert Einstein's contributions to 20th-century physics included the photon theory of light, the special theory of relativity describing motion near the speed of light, and the general theory of relativity, which is the modern description of gravity. His theories laid the groundwork for much of astronomy and astrophysics, from black holes to the structure of the universe as a whole. He also advocated for world peace, universal education, and civil rights for African Americans.

1956: Giant solar flare generates huge amounts of cosmic rays

A huge solar flare struck Earth on Feb. 23, 1956, flooding cosmic ray detectors on the ground with more radiation than any other event in recorded history. The event of 1956 was the first time so many detectors were operating at once, allowing unprecedented measurement of the power of solar storms.

1957: Sputnik 1 launches, beginning the space race

The Soviet Union launched the first artificial satellite, Sputnik 1 (meaning "little companion"), into low Earth orbit on Oct, 4, 1957. Sputnik's design was a small sphere with four radio antennas, and served no purpose other than testing the technology. However, the launch started the space race between the United States and the USSR.

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1958: First American satellite reveals the Van Allen belt

The first American satellite, Explorer 1, successfully reached Earth orbit on Jan. 31, 1958. It carried a cosmic ray detector built by James Van Allen's lab at the University of Iowa. This detector was flooded by cosmic radiation, leading Van Allen to postulate a zone where Earth's magnetic field traps electrically charged particles from the sun; the zone is now known as the Van Allen belt.

1959: Soviet spacecraft takes first image of moon's far side

The Luna 3 probe was the third mission launched by the Soviet Union to the moon and the first to take pictures of the moon's far side. Since the moon always presents the same face to us, Luna 3 provided the first glimpse at the other half of the familiar celestial body in the entire history of humanity.

1960: First successful weather satellite

The United States launched the TIROS-1 (Television InfraRed Observation System) satellite on April 1, 1960. A collaboration between NASA, the National Weather Bureau, and other federal agencies, TIROS-1 was a 78-day trial project to see if satellites would be useful for weather monitoring. The answer was a resounding yes, and weather satellites have been a key part of meteorology ever since.

1961: Yuri Gagarin is first human to travel to space

Soviet cosmonaut Yuri Alekseyevich Gagarin traveled into Earth's orbit aboard the Vostok 1 spacecraft on April 12, 1961, becoming the first human in space. The first American astronaut, Alan Shepard, traveled to space on the Freedom 7 spacecraft on May 5, 1961. Two years later, Gagarin's fellow cosmonaut Valentina Vladimirovna Tereshkova was the first woman in space, orbiting Earth 48 times over three days in the Vostok 6 spacecraft.

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1962: First interplanetary spacecraft

The United States sent the first successful interplanetary spacecraft to Venus: the Mariner 2 probe (following the failure of the Mariner 1 and the Soviet Venera 1 and 2 missions). This small unpiloted mission flew past Venus on Dec. 14, 1962, studying both the planet and the space weather around it. From radiation measurements, Mariner 2 confirmed that Venus's atmosphere is thick and its surface temperature is extremely hot.

 

 

1963: Quasars identified as extragalactic

Starting in the 1940s, astronomers detected bright radio sources, which they awkwardly named "quasi-stellar objects," or QSOs. Dutch astronomer Maarten Schmidt used visible light observations of the first known QSO, 3C 273, to measure its distance, finding it was outside the Milky Way and much brighter than any star. The following year QSOs were nicknamed "quasars," and over the next few decades astronomers learned they were actually black holes at the centers of galaxies, glowing brightly from hot gas swirling around them.

1964: Discovery of relic light from Big Bang

American physicists Arno Penzias and Robert Wilson were employed by Bell Laboratories in New Jersey to build a very sensitive radio antenna. They discovered a persistent "hiss" coming from every direction; in talking with Princeton physicist Robert Dicke and his colleagues, they realized they had detected relic light from very early in the history of the universe. This light, the cosmic microwave background, provided the best evidence yet for the Big Bang theory.

1965: Bright X-rays from distant galaxies

Earth's atmosphere blocks X-ray light from reaching the ground, so to study cosmic X-ray sources, researchers launched an Aerobee rocket carrying Geiger counters. They found several galaxies that were bright in radio emissions were also strong X-ray sources, including the giant galaxy M87. Astronomers ultimately demonstrated these X-rays were powered by supermassive black holes; M87's black hole was finally imaged in 2019.

1966: Soviet probe performs first soft landing on moon

Landing on other worlds is hard, as demonstrated by the many failed and crash-landed missions over the years. The Soviet Luna 9 probe performed the first successful "soft" landing on another world when it reached the Moon on Feb. 3, 1966. The probe also provided the first pictures from the lunar surface, and proved the soft dusty ground could support the weight of a spacecraft—which had important implications for the Apollo missions three years later.

1967: Discovery of pulsars

British astronomer Jocelyn Bell picked up a mysterious radio signal from the sky that repeated itself every 1.33 seconds. She and her Ph.D. advisor Antony Hewish jokingly called the signal LGM-1 for "little green men," but recognized it was from a natural origin rather than aliens. Later observations established the signal was a fast-spinning neutron star emitting a beam of intense radiation that sweeps across Earth on each rotation; these objects are now known as pulsars.

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1968: Apollo 8 orbits moon, captures most iconic picture of Earth

The ultimate goal of NASA's Apollo program was to land humans on the moon, but before they felt safe doing that, they had to make sure they could get humans into orbit around the moon and back to Earth safely. Apollo 8 did just that, carrying William Anders, Frank Borman, and James Lovell for 10 orbits around the moon. On Christmas Eve 1968, Anders captured the famous "Earthrise" picture: our home planet seen over the surface of the moon.

1969: First humans on the moon

On July 20, 1969, American astronauts Neil Armstrong and Edwin "Buzz" Aldrin became the first humans to set foot on the moon. As part of the Apollo 11 mission, they carried a number of scientific instruments, collected Moon rocks, and took many photographs, along with television footage.

1970: Uhuru, first orbiting X-ray observatory, launches

From multiple high-altitude rocket and balloon observations, astronomers knew there were many sources of X-rays in the Milky Way and beyond. NASA's Uhuru mission—launched from Kenya and given the Swahili name for freedom—was the first orbiting X-ray observatory. During its two-year mission, Uhuru mapped 95% of the sky in X-rays, identifying black holes, neutron stars, and hot plasma in clusters of galaxies.

1971: First space station is launched

The Soviet Union launched the first space station, Salyut 1, into low Earth orbit on April 19, 1971, where it remained for 175 days. The station consisted of two crew compartments and carried an ultraviolet telescope for studying stars. Salyut 1 was operated by cosmonauts from the ill-fated Soyuz 11 spacecraft for 23 days, before problems cut the mission short; all three crew members died from a loss of cabin pressure on returning to Earth.

1972: First evidence black holes are real

British astronomers B. Louise Webster and Paul Murdin identified a companion star to the X-ray source Cygnus X-1. By measuring the motion of the star, they estimated the X-ray source was too massive to be a neutron star, firmly establishing Cygnus X-1 as the first known black hole.

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1973: Listening for aliens with the Big Ear

Since humans use radio for communications, many people have speculated that intelligent aliens might do so too. For that reason, the Ohio State University devoted a radio telescope known as the "Big Ear" to looking for alien signals from 1973 to 1995. While the program ultimately did not find aliens, in 1977 it recorded an unusual source known as the "Wow! Signal," which has never been explained or repeated.

1974: First indirect detection of gravitational waves

American astronomers Russell Hulse and Joseph Taylor observed two pulsars in mutual orbit. Based on the behavior of the binary system, the orbit was decaying at a rate consistent with the predictions of general relativity. This was the first evidence for gravitational waves: ripples in the structure of spacetime produced by binary pulsars, black holes, and other strong gravitational systems.

1975: First images from the surface of Venus

The Soviet probe Venera 9 touched down on the surface of Venus on Oct. 22, 1975. Because of the extreme heat and atmospheric pressure, the probe only operated for 53 minutes, but during that time it returned the first pictures from the surface of another planet, including a 180-degree panorama of the Venusian landscape.

1976: Viking probes arrive on Mars

The twin American Viking orbiters and landers arrived on Mars in 1976, providing the most detailed information we had about the planet until the 1990s. The landers included a number of scientific instruments for studying the atmosphere, geology, and chemistry of the Martian surface, with a particular interest in finding evidence of life. While the question of life on Mars is still open, the Viking missions were extremely successful in describing the conditions on the most potentially habitable planet other than our own.

1977: Discovery of rings around Uranus

American astronomers James L. Elliot, Edward W. Dunham, and Jessica Mink discovered rings around the planet Uranus as it crossed in front of a distant star. The star's light appeared to blink off and on repeatedly, as it was blocked by matter in the rings. While these rings are less bright and dramatic than Saturn's, their discovery indicated ring systems are common around giant worlds.

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1978: Measurement of galaxy rotation reveals invisible matter

Beginning in the 1960s, American astronomer Vera Rubin began measuring the rotation rates of spiral galaxies, and noticed the outer regions of the galaxies were rotating as fast as the inner parts. With Kent Ford and other collaborators, Rubin amassed data on a number of these galaxies, leading to the conclusion that galaxies contain five to 10 times as much invisible "dark matter" as ordinary matter.

1979: Voyagers 1 and 2 fly past Jupiter

NASA researchers seized on a fortuitous alignment of the four giant outer planets to plan the Voyager missions. While the two spacecraft's trajectories diverged, both spacecraft flew past Jupiter in 1979, discovering the planet's rings and three new moons. The Voyagers also spotted lightning in Jupiter's atmosphere, tracked the moon Io in the midst of volcanic eruptions, and revealed Europa to have a cap of ice over a global ocean.

1980: Voyager 1 reaches Saturn and Titan

The Voyager 1 probe's planned trajectory took it past Saturn's moon Titan to see if the moon was potentially habitable. That path took it away from the other giant planets, but allowed it to provide the first close-up views of Saturn's rings, including the "shepherd moons" Prometheus and Pandora that correspond to gaps in the rings. Voyager 1 also revealed Titan's atmosphere blocked any visible light that might provide view of the surface, which inspired the more advanced instruments on the Cassini mission of the 2000s.

1981: Inaugural Space Shuttle launches

The Space Transportation System (STS) was the follow-up to NASA's Apollo program, designed around a reusable set of Space Shuttles. The first launch came on April 12, 1981 (the 20th anniversary of Yuri Gagarin's flight), when Space Shuttle Columbia lifted off from Kennedy Space Center with a test crew of two. Columbia returned to space on Nov. 12, marking the first time any spacecraft was flown more than once.

1982: First millisecond pulsar identified

American astronomer Donald C. Backer and his colleagues discovered a pulsar spinning 642 times per second: much faster than a typical pulsar. Later observations showed these millisecond pulsars spin faster because they’ve stolen matter from companion stars. Their very consistent rotation speeds mean millisecond pulsars are some of the best clocks in the cosmos.

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1983: Sally Ride and Guion Bluford go to space

NASA's space program from its inception until the 1980s consisted entirely of white male astronauts. The Space Shuttle program finally corrected that problem, when Sally Ride became the first white American woman in space and Guion Bluford, Jr. became the first African American man (both aboard the Challenger Space Shuttle). Ride later founded the Sally Ride Science educational nonprofit with her partner Tam O'Shaughnessy.

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1984: First untethered spacewalks

Part of the Space Shuttle's mission was to provide maintenance for satellites, so in 1984 NASA introduced the Manned [sic] Maneuvering Unit (MMU) to allow astronauts to move freely without using a tether. The MMU was used successfully on three shuttle flights before being retired, after a review decided it was too risky compared to ordinary tethered spacewalks.

1985: International Cometary Explorer flies through two comet tails

The International Cometary Explorer (ICE) was originally designed to monitor the solar wind—particles streaming off the sun—but a change in its orbit put it in the unique position to study comets passing close to Earth. In 1985, ICE flew through the tail of Comet Giacobini-Zinner, becoming the first mission ever to perform a comet flyby. In 1986, ICE was part of the "Halley armada" of spacecraft studying Halley's Comet during its 75-year passage through the solar system.

1986: Space Shuttle Challenger breaks apart shortly after takeoff

On January 28, 1986, the Space Shuttle Challenger broke apart less than two minutes after launch, killing the entire crew. This flight included schoolteacher Christa McAuliffe. The multiple levels of communication and safety failures revealed during subsequent investigations led to a complete overhaul of NASA's procedures, grounding the remaining shuttles for more than two years.

1987: Closest supernova in modern times

On Feb. 23, 1987, a bright point of light appeared in the Large Magellanic Cloud, one of the closest galaxies to the Milky Way. The light came from the supernova of a giant star, and for a brief period it was bright enough to see without a telescope. Designated Supernova 1987A, this was the first supernova of the modern telescope era, and has provided a lot of information on how such explosions happen; the remnants of the explosion are still studied today.

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1988: NASA scientist testifies about climate change

NASA scientist James Hansen testified before the United States Senate that buildup of carbon dioxide in Earth's atmosphere due to human activity was directly responsible for global warming. While Hansen wasn't the first to recognize the threat of climate change, by the 1980s, computer models were sophisticated enough to predict how damaging increases in global average temperatures would be. Hansen's testimony called widespread attention to a problem that had previously been the province of activists and scientists.

1989: Voyager 2 arrives at Neptune

While Voyager 1 ended its planetary journey at Saturn, Voyager 2 had continued to Uranus in 1986 and Neptune in 1989. During its flyby, the probe got a close look at the large moon Triton, which many researchers believe originated farther out in the solar system before being captured by Neptune. Voyager 2 also confirmed six new moons orbiting Neptune and discovered rings around the planet, making all four giant worlds ringed planets.

 

1990: Magellan mission reaches Venus

The Venus Radar Mapper, more commonly known as Magellan, was the first NASA interplanetary probe in over a decade. Its mission was to map the entire surface of Venus using radar to penetrate the thick atmosphere, as well as to measure the planet's gravitational field and atmospheric properties. Magellan identified many important features, including volcanoes and lava fields, which in combination with the lack of craters indicates Venus was geologically active within the last billion years.

1991: Compton Gamma Ray Observatory launched

NASA's Compton Gamma Ray Observatory was an orbiting telescope designed to observe the highest-energy phenomena in the universe. Launched from the Space Shuttle Atlantis, Compton operated from 1991 through 2000, hunting for gamma-ray bursts (now known to be supernovas and collisions between neutron stars), pulsars, supernova remnants, and previously unknown objects.

1992: First planets beyond the solar system discovered

Until the 1990s, the only planets we knew about were the ones in our solar system. In 1992, astronomers Aleksander Wolszczan and Dale Frail discovered two planets orbiting around a pulsar, thanks to small variations in the timing of the pulsar flashes. Since pulsars are formed during supernovas, any planet orbiting the original star is unlikely to survive the process, leading many scientists to think pulsar planets may have been formed out of the debris from the supernova itself.

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1993: Astronauts correct flaws in Hubble Space Telescope

NASA's Hubble Space Telescope was launched in 1990, but its first observations showed it had a flaw in its main mirror. However, the telescope was built to be upgraded and repaired by Space Shuttle crews, so in 1993, astronauts installed a set of corrective mirrors to compensate for the flaw. After that, Hubble became one of the most essential observatories in the world, providing both beautiful images and important scientific data.

1994: Comet Shoemaker-Levy 9 strikes Jupiter

Impacts from asteroids or comets are exciting things, so long as we can watch from a safe distance. In July 1994, fragments of Comet Shoemaker-Levy 9 (discovered by astronomers Carolyn and Eugene M. Shoemaker and David Levy) struck Jupiter, creating scars in the clouds visible through small telescopes. Astronomers were able to study new aspects of Jupiter's atmosphere due to the impacts.

1995: First hot Jupiter discovered

Following the discovery of pulsar planets, scientists were on the lookout for exoplanets orbiting ordinary stars like the sun. The first of these was found just three years later: 51 Peg b, a planet roughly half the mass of Jupiter, but in such a tight orbit its gravity causes its host star to wobble, which is how the planet was found. This was the first "hot Jupite," a new type of planet very different from anything found in the solar system, and it opened the floodgates for exoplanet discoveries to come.

1996: Hubble Deep Field Survey reveals a wealth of galaxies

Astronomers pointed the Hubble Space Telescope at a relatively empty patch of sky for 10 days at the end of 1995. This project was the Hubble Deep Field Survey, and it revealed around 3,000 previously unseen galaxies in that patch alone, including some from the early universe.

1997: Comet Hale-Bopp passes Earth

The brightest comet of the modern era, Comet Hale-Bopp, was visible without a telescope for 18 months from May 1996 through December 1997, peaking in brightness in April 1997. Between the visibility without special equipment and the availability of modern telescopes, Hale-Bopp was perhaps the most widely-observed comet in human history.

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1998: Astronomers discover the expansion of the universe is accelerating

Two competing groups of astronomers were measuring the expansion rate of the universe using a type of supernova produced by exploding white dwarfs (the remnants of stars like our sun). They found the rate of expansion was accelerating, in contradiction to most astronomers' expectations. Physicist Michael Turner dubbed the driver of this acceleration "dark energy," and it stands as one of the biggest mysteries in modern cosmology.

1999: Launch of Chandra X-ray Observatory

What the Hubble Space Telescope is to visible light astronomy, NASA's Chandra X-ray Observatory is for X-ray astronomy. Launched from the Space Shuttle Columbia, the telescope uses special reflectors to focus X-rays, providing detailed views of supernova remnants, the hot matter around black holes, distant galaxy clusters, and many more.

2000: The universe is flatter than a pancake

The BOOMERanG (Balloon Observations Of Millimetric Extragalactic Radiation ANd Geophysics) experiment was a telescope suspended beneath a high-altitude weather balloon, designed to measure fluctuations in the radiation left over from shortly after the Big Bang. BOOMERanG's data showed the universe is strikingly flat, meaning in empty space light travels in straight lines. This flatness means something weird happened in the early cosmos, because the expansion of spacetime would ordinarily curve the structure of the universe.

2001: Atmosphere of an exoplanet detected

The Hubble Space Telescope detected the presence of sodium in the atmosphere of the exoplanet HD 209458 b. This world is a "hot Jupiter," a planet larger than Jupiter but orbiting closer to its star than Mercury. Because the planet passes between its host star and Earth, astronomers were able to measure light absorbed through the edges of the atmosphere, the first time such a measurement was done.

2002: Mars Odyssey mission detects presence of water on Mars

NASA's Mars Odyssey probe reached Mars in 2001 and has been operating ever since, looking for evidence of water and interesting geological discoveries. In 2002, the spacecraft identified signs of water roughly a meter beneath the dusty surface in places other than the poles.

 

2003: WMAP mission confirms existence of dark matter and dark energy

The WMAP (Wilkinson Microwave Anisotropy Project) space telescope mapped the entire sky in microwave light to measure the fluctuations in the cosmic microwave background: light left over from after the Big Bang. These fluctuations reveal the relative amounts of the various contents in the universe; the 2003 WMAP data provided independent confirmation of the existence of dark matter, which holds galaxies together, and dark energy, which accelerates the expansion of the universe.

2004: Spirit and Opportunity rovers land on Mars

NASA's Mars Exploration Rovers, named Spirit and Opportunity, landed on Mars in January 2004. Designed for a 90-day mission, they lasted for six years (Spirit) and 14 years (Opportunity), providing new information about the geology of Mars during their travels. Among those results: evidence for surface water on Mars in the distant past.

2005: Huygens probe lands on Titan

The Cassini mission to Saturn gave us over a decade of data on the planet and its moons. Part of the mission was the Huygens probe, which landed on Titan on Jan. 4, 2005, returning the first pictures from the surface of the moon. Subsequent observations revealed rainfall and lakes of liquid hydrocarbons (methane, ethane, and similar substances), making Titan the only known world other than Earth with a hydrological cycle.

2006: IAU introduces new definition of planet

Pluto and its largest moon Charon were for decades the only known objects beyond the orbit of Neptune, but the discoveries of Albion in 1992, Sedna in 2004, and particularly Eris in 2005 led researchers to realize there are a lot of small icy worlds in the outer solar system. For that reason, the International Astronomical Union (IAU) proposed a new definition for what a planet is, one that redefined Pluto as a dwarf planet. The specific criteria for planethood were unsatisfactory to many scientists, whatever their opinion of Pluto's planetary status.

2007: "Super-Earth" exoplanet identified in habitable zone

Many newly discovered exoplanets are of a type unknown in the Solar System: "super-Earths," potentially rocky planets larger than our home world. The super-Earth Gliese 581 c was at the time of its discovery the smallest exoplanet yet seen, and most interestingly it orbits the host star in the "habitable zone": the region where liquid water could conceivably exist on the planet’s surface. However, much is still unknown about super-Earths, and the differences between the Gliese 581 host star and our Sun are large, making habitability uncertain.

 

2008: First direct image of an exoplanet

Mostly, exoplanets are too small and too close to their host star to be captured in images, but one newborn planet was identified in 2008. The exoplanet, Fomalhaut b, was first seen by the Hubble Space Telescope within a disk of debris around the star Fomalhaut. The planet itself is bright enough to see in visible light, indicating it is still young and hasn't cooled off from the collision process that forms new planets.

2009: Launch of Kepler exoplanet observatory

By 2009, exoplanet discoveries were coming in fast, but the launch of the Kepler observatory accelerated the process even more. Kepler pointed at a single patch of the sky, monitoring roughly 150,000 stars for transits: the brief decrease in light as an exoplanet crosses its host star. Over its 9 years of operation, Kepler identified 2,662 exoplanets and provided new data on the behavior of stars.

2010: Hayabusa mission returns material from asteroid to Earth

The Japanese Aerospace Exploration Agency (JAXA) Hayabusa probe was the first mission to return material from an asteroid to Earth. Though plagued with technical problems, the probe traveled to the near-Earth asteroid Itokawa, landed on its surface, and collected around 1,500 grains of material. Learning from both the problems and successes of this mission, JAXA constructed the Hayabusa 2 probe, currently studying asteroid Ryugu.

2011: MESSENGER mission arrives in Mercury orbit

Mercury is remarkably hard to study due to its closeness to the sun. For that reason, NASA's MESSENGER probe is only the second to visit the planet, which it did on several flybys before settling into orbit in 2011. During its mission, MESSENGER mapped Mercury's surface for the first time, finding traces of water in the shadowed polar regions and making important geological discoveries.

2012: Curiosity rover lands on Mars

NASA's fourth Mars rover, the Mars Science Laboratory—nicknamed Curiosity—arrived on Mars on Aug. 12, 2012. The landing was particularly thrilling due to the use of a "sky crane" to lower the heavy car-sized rover onto its wheels at a precise location. Since its landing, Curiosity has confirmed the presence of clay materials in Martian soil and performed measurements of variations in the Martian climate.

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2013: Meteor explodes over Chelyabinsk in Russia

On the morning of Feb. 13, 2013, a 20-meter-long meteorite exploded in the air over the city of Chelyabinsk, Russia. This event was heavily recorded thanks to the widespread use of dashboard cameras in Russia, but because of the supersonic explosion over a heavily populated area, around 1,500 people were injured and thousands of buildings were damaged.

2014: Rosetta mission arrives at Comet 67P

The European Space Agency Rosetta mission arrived in orbit around Comet 67P, where it studied how sunlight affected the surface of the comet as it approached the sun. The mission also included a small lander named Philae, which unfortunately landed poorly and could not return much data. However, Rosetta provided a wealth of new information about cometary behavior in addition to many striking images of the surface of 67P.

2015: New Horizons probe first to visit Pluto and its moons

NASA's New Horizons probe is the only spacecraft to visit Pluto and its moons, revealing a surprisingly dynamic world during its passage. Among the features New Horizons revealed was an icy plain, nicknamed Sputnik, which indicates active internal processes such as ice volcanoes.

2016: Gravitational waves from colliding black holes

The Laser Interferometer Gravitational-wave Observatory (LIGO) in the United States with the Virgo observatory in Europe announced the measurement of gravitational waves from colliding black holes. This was direct confirmation of an important prediction from Einstein's general theory of relativity, that gravitational disturbances send out ripples in spacetime. In the following years, LIGO and Virgo detected other black hole collisions, as well as the collision between two neutron stars.

2017: First identification of an asteroid from outside the solar system

A strangely shaped asteroid the size of a building passed close to Earth in October 2017. Astronomers calculated its trajectory and realized it originated outside the solar system, naming it 'Oumuamua, "first messenger" in Hawaiian. Such small alien asteroids are likely to be common, but require some luck to observe because of their transient nature.

 

2018: Hayabusa-2 and OSIRIS-REx missions begin studying asteroids

JAXA and NASA each sent a probe to an asteroid to observe closely and return materials to Earth for further study. JAXA's Hayabusa-2 is the follow-up to the original Hayabusa mission, now visiting asteroid Ryugu, while NASA's OSIRIS-REx is studying asteroid Bennu. Both missions seek to understand the origins of the solar system, since asteroids are relatively pristine relics from early history, and also to comprehend how these objects react to sunlight and the solar wind.

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