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Formation of Earth

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Formation of Earth

What was early Earth like?

Earth was not always the moderate and habitable planet it is today. In its earliest days, Earth was scorching hot and without an atmosphere or water. If life originated early on, it was wiped out by the terrible conditions.

Formation of Earth

Earth formed at the same time as the other planets. The history of Earth is part of the history of the Solar System.

Planets Form

Earth came together (accreted) from the cloud of dust and gas known as the solar nebula nearly 4.6 billion years ago, the same time the Sun and the rest of the solar system formed. Gravity caused small bodies of rock and metal orbiting the proto-Sun to smash together to create larger bodies. Over time, the planetoids got larger and larger until they became planets.

Molten Earth

When Earth first came together it was really hot, hot enough to melt the metal elements that it contained. Earth was so hot for three reasons:

  • Gravitational contraction: As small bodies of rock and metal accreted, the planet grew larger and more massive. Gravity within such an enormous body squeezes the material in its interior so hard that the pressure swells. As Earth’s internal pressure grew, its temperature also rose.
  • Radioactive decay: Radioactive decay releases heat, and early in the planet’s history there were many radioactive elements with short half lives. These elements long ago decayed into stable materials, but they were responsible for the release of enormous amounts of heat in the beginning.
  • Bombardment: Ancient impact craters found on the Moon and inner planets indicate that asteroid impacts were common in the early solar system. Earth was struck so much in its first 500 million years that the heat was intense. Very few large objects have struck the planet in the past many hundreds of millions of year.

Differentiation

When Earth was entirely molten, gravity drew denser elements to the center and lighter elements rose to the surface. The separation of Earth into layers based on density is known as differentiation . The densest material moved to the center to create the planet’s dense metallic core. Materials that are intermediate in density became part of the mantle ( Figure below ).

Drawing of Earth's layers: crust, mantle, outer core, inner core

Earth’s interior: Inner core, outer core, mantle, and crust.

First Crust

Lighter materials accumulated at the surface of the mantle to become the earliest crust. The first crust was probably basaltic, like the oceanic crust is today. Intense heat from the early core drove rapid and vigorous mantle convection so that crust quickly recycled into the mantle. The recycling of basaltic crust was so effective that no remnants of it are found today.

Early Solar System Materials

There is not much material to let us know about the earliest days of our planet Earth. What there is comes from three sources: (1) zircon crystals, the oldest materials found on Earth, which show that the age of the earliest crust formed at least 4.4 billion years ago; (2) meteorites that date from the beginning of the solar system, to nearly 4.6 billion years ago ( Figure below ); and (3) lunar rocks, which represent the early days of the Earth-Moon system as far back as 4.5 billion years ago.

The Allende Meteorite, which is similar to material that made up the earliest solar system

The Allende Meteorite is a carbonaceous chondrite that struck Earth in 1969. The calcium-aluminum-rich inclusions are fragments of the earliest solar system.

Summary

  • In the beginning, Earth was exceedingly hot due to gravitational contraction, the radioactive decay of short-lived isotopes, and bombardment from meteorites.
  • The molten Earth separated into layers by density in a process known as differentiation.
  • We know about the early Earth from zircon crystals, meteorites that originated elsewhere in the solar system, and moon rocks.

Practice

Use this resource to answer the questions that follow.

http://www.youtube.com/watch?v=-x8-KMR0nx8

1. What did the impacts to form the early Earth create?

2. Why were these impacts important?

3. What is caused by the heat?

4. How old is the Earth?

5. What does the heat in the core mean for the Earth?

Review

1. Radioactive elements inside the planet release heat now, but why was so much more heat released earlier in Earth's history?

2. Describe how and why Earth material separated into layers.

3. How do zircon crystals indicate when the first crust formed?

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