An oxygen-rich and protective atmosphere, moderate
temperatures, abundant water, and a varied chemical composition enable Earth to
support life, the only planet known to harbour life. The planet is composed of
rock and metal, which are present in molten form beneath its surface. The
Apollo 17 spacecraft took this snapshot in 1972 of the Arabian Peninsula, the
African continent, and Antarctica (most of the white area near the bottom).
Earth, third planet in distance
from the Sun in the solar system, the only planet known to harbour life, and
the “home” of human beings. From space Earth resembles a big blue marble with
swirling white clouds floating above blue oceans. About 71 percent of Earth’s
surface is covered by water, which is essential to life. The rest is land,
mostly in the form of continents that rise above the oceans.
Earth’s surface is surrounded by a
layer of gases known as the atmosphere, which extends upward from the surface,
slowly thinning out into space. Below the surface is a hot interior of rocky
material and two core layers composed of the metals nickel and iron in solid
and liquid form.
Unlike the other planets, Earth has
a unique set of characteristics ideally suited to supporting life as we know
it. It is neither too hot, like Mercury, the closest planet to the Sun, nor too
cold, like distant Mars and the even more distant outer planets—Jupiter,
Saturn, Uranus, Neptune, and the tiny dwarf planet Pluto. Earth’s atmosphere includes
just the right amount of gases that trap heat from the Sun, resulting in a
moderate climate suitable for water to exist in liquid form. The atmosphere
also helps block radiation from the Sun that would be harmful to life. Earth’s
atmosphere distinguishes it from the planet Venus, which is otherwise much like
Earth. Venus is about the same size and mass as Earth and is also neither too
near nor too far from the Sun. But because Venus has too much heat-trapping
carbon dioxide in its atmosphere, its surface is extremely hot—462°C
(864°F)—hot enough to melt lead and too hot for life to exist.
Although Earth is the only planet
known to have life, scientists do not rule out the possibility that life may
once have existed on other planets or their moons, or may exist today in
primitive form. Mars, for example, has many features that resemble river
channels, indicating that liquid water once flowed on its surface. If so, life
may also have evolved there, and evidence for it may one day be found in fossil
form. Water still exists on Mars, but it is frozen in polar ice caps, in
permafrost, and possibly in rocks below the surface.
Earth from
the Moon
In the late
1960s, people saw for the first time what Earth looked like from space. This
famous photo of Earth was taken by astronauts on the Apollo 8 mission as they
orbited the Moon in 1968.
For thousands of years, human beings
could only wonder about Earth and the other observable planets in the solar
system. Many early ideas—for example, that the Earth was a sphere and that it
traveled around the Sun—were based on brilliant reasoning. However, it was only
with the development of the scientific method and scientific instruments,
especially in the 18th and 19th centuries, that humans began to gather data
that could be used to verify theories about Earth and the rest of the solar
system. By studying fossils found in rock layers, for example, scientists
realized that the Earth was much older than previously believed. And with the
use of telescopes, new planets such as Uranus, Neptune, and Pluto were
discovered.
In the second half of the 20th
century, more advances in the study of Earth and the solar system occurred due
to the development of rockets that could send spacecraft beyond Earth. Human
beings were able to study and observe Earth from space with satellites equipped
with scientific instruments. Astronauts landed on the Moon and gathered ancient
rocks that revealed much about the early solar system. During this remarkable
advancement in human history, humans also sent unmanned spacecraft to the other
planets and their moons. Spacecraft have now visited all of the planets except
Pluto, now classified as a dwarf planet. The study of other planets and moons
has provided new insights about Earth, just as the study of the Sun and other
stars like it has helped shape new theories about how Earth and the rest of the
solar system formed.
As a result of this recent
space exploration, we now know that Earth is one of the most geologically
active of all the planets and moons in the solar system. Earth is constantly
changing. Over long periods of time land is built up and worn away, oceans are
formed and re-formed, and continents move around, break up, and merge.
Life itself contributes to changes on
Earth, especially in the way living things can alter Earth’s atmosphere. For
example, Earth at one time had the same amount of carbon dioxide in its
atmosphere as Venus now has, but early forms of life helped remove this carbon
dioxide over millions of years. These life forms also added oxygen to Earth’s
atmosphere and made it possible for animal life to evolve on land.
A variety of scientific fields have
broadened our knowledge about Earth, including biogeography, climatology,
geology, geophysics, hydrology, meteorology, oceanography, and zoogeography.
Collectively, these fields are known as Earth science. By studying Earth’s
atmosphere, its surface, and its interior and by studying the Sun and the rest
of the solar system, scientists have learned much about how Earth came into existence,
how it changed, and why it continues to change.
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