![]() Andy Davis in the Geophysical Sciences Department at the University of Chicago make precise measurements of lunar samples to determine exactly what they’re made of, and identify the chemical fingerprints of different geological processes like the melting and mixing of rocks and the evaporation of gasses. Samples of rock from the moon, brought to Earth by lunar meteorites and the Apollo moon landings, can be used to understand the history of the Moon and its relationship to the Earth through the chemistry of their minerals. the Earth and moon formed from the protoplanetary disk at the same time (“Co-formation”).the moon formed elsewhere in the solar system and was captured by Earth’s gravity (“Capture theory”).the moon broke away from the Earth (“Fission theory”).In this theory, the moon formed from the impact debris-a mixture of molten rock and hot gas-flung out into space by the impact, potentially forming a disk of material known as a “lunar synestia.”Īlternate theories suggested by scientists include: Several different formation theories for the moon have been proposed by scientists, The story that is best supported by all the available data, however, is that the moon formed during a giant impact between the proto-Earth, and another protoplanet roughly the size of Mars, sometimes called “Theia.” This was not only the last major addition of material to the Earth, but also the event that formed the moon-and it’s one of the most debated parts of the story. Using these measurements, and simulations of the physics of dust and planetesimal collisions, planetary scientists and astronomers have established that the dust-to-protoplanet process takes tens of millions of years.īut the final stage of planet formation in our solar system may have taken much longer - up to a hundred million years or so. Radioactive elements like uranium and hafnium are trapped inside the minerals that make up these objects when they form, which allows planetary scientists to tell how old they are. ![]() These materials include chondrules-tiny pieces of dust and rock that have survived from before the planets formed-and pieces of asteroids and planetesimals left behind by the planet-building process. Meteorites bring many different types of material from all over the solar system to Earth where scientists can study them. Eventually, they grew from tiny dust grains into boulders, then into larger “planetesimals” that ranged from miles to hundreds of miles in diameter.īecause these planetesimals were larger than the boulders, they had strong enough gravity to pull neighboring planetesimals out of orbits and absorb them through collisions, enabling some planetesimals to grow bigger and bigger until they reached thousands of miles in diameter-about the size of the moon and Mars. Within this disk, gas and dust particles of different sizes orbited the sun at slightly different speeds, allowing them to bump into each other and stick together. Scientists now think the Earth’s story began around 4.6 billion years ago in a disk-shaped cloud of dust and gas rotating around the early sun, made up of material left behind after the sun’s formation. This also guides planetary scientists in their search for other habitable (or inhabited!) worlds in our solar system and beyond! Understanding how the Earth and moon formed is important for piecing together the history of the solar system and answering questions like how long planets take to form, what planets are made of, and what makes a planet suitable for life. We know this thanks to rigorous studies of meteorites and rock samples, including at the University of Chicago, in the 20th and 21st centuries. This vapor formed a disc around the Earth that eventually cooled and clumped together to become the moon. This last collision, also known as the “moon-forming impact,” was so large that-in addition to adding lots of material to the Earth-there was enough energy to vaporize some of the rock and metal from both the proto-Earth and the impacting object. The dust particles were brought together by the forces of drag to form clumps of rock that grew into what scientists call “planetesimals,” which are tens to hundreds of miles across, and then to Mars-sized “protoplanets” by colliding with each other.Įarth grew to its final size through one last major collision with another Mars-sized object. ![]() The Earth, like all the other planets in the solar system, started out its life as a disc of dust and gas orbiting the young sun.
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