According to
NASA astrophysicists, early astronomical objects began to emerge plausibly 13.6 billion years ago, roughly 200 million years after the
Big Bang formed the early universe. Over time, light was left from
gravity to fuse into the first
stars and
galaxies. Astronomical objects such as
stars,
planets,
nebulae,
asteroids and
comets have been observed for thousands of years, although early cultures thought of these bodies as
deities. These early cultures found the movements of the bodies very important as they used these objects to help navigate over long distances, tell between the seasons, and to determine when to plant crops. During the
Middle Ages, cultures began to study the movements of these bodies more closely. Several astronomers of the Middle East began to make detailed descriptions of stars and nebulae, and would make more accurate calendars based on the movements of these stars and planets. In Europe, astronomers focused more on devices to help study the celestial objects and creating textbooks, guides, and
universities to teach people more about astronomy. During the
Scientific Revolution, in 1543,
Nicolaus Copernicus's heliocentric model was published. This model described the
Earth, along with all of the other planets as being astronomical bodies which orbited the
Sun located in the center of the
Solar System.
Johannes Kepler discovered
Kepler's laws of planetary motion, which are properties of the orbits that the astronomical bodies shared; this was used to improve the heliocentric model. In 1584,
Giordano Bruno proposed that all distant stars are their own suns, being the first in centuries to suggest this idea.
Galileo Galilei was one of the first astronomers to use telescopes to observe the sky, in 1610 he observed the four largest moons of
Jupiter, now named the
Galilean moons. Galileo also made observations of the phases of
Venus, craters on the
Moon, and
sunspots on the Sun. Astronomer
Edmond Halley was able to successfully predict the return of
Halley's Comet, which now bears his name, in 1758. In 1781,
Sir William Herschel discovered the new planet
Uranus, being the first discovered planet not visible by the naked eye. In the 19th and 20th centuries, new technologies and scientific innovations allowed scientists to greatly expand their understanding of astronomy and astronomical objects. Larger telescopes and observatories began to be built and scientists began to print images of the Moon and other celestial bodies on photographic plates. New
wavelengths of light unseen by the human eye were discovered, and new telescopes were made that made it possible to see astronomical objects in other wavelengths of light.
Joseph von Fraunhofer and
Angelo Secchi pioneered the field of
spectroscopy, which allowed them to observe the composition of stars and nebulae, and many astronomers were able to determine the masses of binary stars based on their
orbital elements. Computers began to be used to observe and study massive amounts of astronomical data on stars, and new technologies such as the
photoelectric photometer allowed astronomers to accurately measure the color and luminosity of stars, which allowed them to predict their temperature and mass. In 1913, the
Hertzsprung–Russell diagram was developed by astronomers
Ejnar Hertzsprung and
Henry Norris Russell independently of each other, which plotted stars based on their luminosity and color and allowed astronomers to easily examine stars. It was found that stars commonly fell on a band of stars called the
main-sequence stars on the diagram. A refined scheme for
stellar classification was published in 1943 by
William Wilson Morgan and
Philip Childs Keenan based on the Hertzsprung–Russell diagram. Astronomers also began debating whether other galaxies existed beyond the
Milky Way, these debates ended when
Edwin Hubble identified the
Andromeda nebula as a different galaxy, along with many others far from the Milky Way. == Galaxy and larger ==