What Is Earth? 2015 PDF

Summary

This document is an informational text about the planet Earth, written by NASA in 2015. It covers topics such as the composition of Earth, how it supports life, and its movement within the solar system. A good resource for elementary or secondary school students to learn more about the Earth, solar system, and the scientific approach to its study.

Full Transcript

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What Is Earth?
By NASA
2015

This informational text explores what makes up the planet Earth, how it supports life, and its
movement within the solar system. As you read, take notes on what Earth is made of and how
scientists are able to study it.

Earth is our home planet. Scientists believe
Earth and its moon formed around the same
time as the rest of the solar system. They
think that was about 4.5 billion years ago.
Earth is the fifth-largest planet in the solar
system. Its diameter is about 8,000 miles. And
Earth is the third-closest planet to the sun. Its
average distance from the sun is about 93
million miles. Only Mercury and Venus are
closer.

Earth has been called the “Goldilocks planet.”
In the story of “Goldilocks and the Three
Bears,” a little girl named Goldilocks liked
everything just right. Her porridge couldn’t be "This picture of Earth is sometimes called the
too hot or too cold. And her bed couldn’t be blue marble" by NASA is in the public domain.
too hard or too soft. On Earth, everything is
just right for life to exist. It’s warm, but not too warm. And it has water, but not too much water.

Earth is the only planet known to have large amounts of liquid water. Liquid water is essential
for life. Earth is the only planet where life is known to exist.

What Does Earth Look Like?

From space, Earth looks like a blue marble with white swirls and areas of brown, yellow, green
and white. The blue is water, which covers about 71 percent of Earth’s surface. The white swirls
are clouds. The areas of brown, yellow and green are land. And the areas of white are ice and
snow.

The equator is an imaginary circle that divides Earth into two halves. The northern half is called
the Northern Hemisphere. The southern half is called the Southern Hemisphere. The
northernmost point on Earth is called the North Pole. The southernmost point on Earth is called
the South Pole.

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 How Does Earth Move?

Earth orbits the sun once every 365 days, or one year. The shape of its orbit is not quite a
perfect circle. It’s more like an oval, which causes Earth's distance from the sun to vary during
the year. Earth is nearest the sun, or at “perihelion,” in January when it’s about 91 million miles
away. Earth is farthest from the sun, or at “aphelion,” in July when it’s about 95 million miles
away.

At the equator, Earth spins at just over 1,000 miles per hour. Earth makes a full spin around its
axis once every 24 hours, or one day. The axis is an imaginary line through the center of the
planet from the North Pole to the South Pole. Rather than straight up and down, Earth’s axis is
tilted at an angle of 23.5 degrees.

Why Do We Have Day and Night?

At all times, half of Earth is lighted by the sun and half is in darkness. Areas facing toward the
sun experience daytime. Areas facing away from the sun experience nighttime. As the planet
spins, most places on Earth cycle through day and night once every 24 hours. The North Pole
and South Pole have continuous1 daylight or darkness depending on the time of year.

Why Does Earth Have Seasons?

Earth has seasons because its axis2 is tilted. Thus, the sun’s rays hit different parts of the planet
more directly depending on the time of year.

From June to August, the sun’s rays hit the Northern Hemisphere more directly than the
Southern Hemisphere. The result is warm (summer) weather in the Northern Hemisphere and
cold (winter) weather in the Southern Hemisphere.

From December to February, the sun’s rays hit the Northern Hemisphere less directly than the
Southern Hemisphere. The result is cold (winter) weather in the Northern Hemisphere and
warm (summer) weather in the Southern Hemisphere.

From September to November, the sun shines equally on both hemispheres. The result is fall in
the Northern Hemisphere and spring in the Southern Hemisphere.

The sun also shines equally on both hemispheres from March to May. The result is spring in the

1. Continuous (adjective) continuing without being stopped or interrupted
2. the imaginary straight line that something (such as the Earth) turns around

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 Northern Hemisphere and fall in the Southern Hemisphere.

What Are Earth’s Different Parts?

Earth consists of land, air, water and life. The land contains mountains, valleys, and flat areas.
The air is made up of different gases, mainly nitrogen and oxygen. The water includes oceans,
lakes, rivers, streams, rain, snow and ice. Life consists of people, animals and plants. There are
millions of species, or kinds of life, on Earth. Their sizes range from very tiny to very large.

Below Earth’s surface are layers of rock and metal. Temperatures increase with depth, all the
way to about 12,000 degrees Fahrenheit at Earth’s inner core.

Earth’s parts once were seen as largely separate from each other. But now they are viewed
together as the “Earth system.” Each part connects to and affects each of the other parts. For
example:

Clouds in the air drop rain and snow on land.

Water gives life to plants and animals.

Volcanoes on land send gas and dust into the air.

People breathe air and drink water.

Earth system science is the study of interactions between and among Earth’s different parts.

Why and How Does NASA Study Earth?

NASA studies Earth to learn about how the planet changes. Earth’s parts — land, air, water and
life — are always changing. Some of the changes are natural and some are caused by humans.
Scientists want to understand how Earth has changed in the past and how it is changing now.
This information helps them predict how Earth might change in the future.

NASA studies Earth using satellites.3 Satellites look toward Earth from space. They take pictures
of, and collect information about, all of Earth’s parts. NASA satellites are especially good for
observing clouds, oceans, land and ice. They also measure gases in the atmosphere, such as
ozone and carbon dioxide. They measure how much energy enters and leaves Earth’s
atmosphere. And they monitor wildfires, volcanoes and their smoke.

3. an object placed in orbit around the Earth, moon, or other planet that collects information
or is used for communication

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 Information gathered by NASA satellites helps scientists predict weather and climate. It also
helps public health officials track disease and famine4. It helps farmers decide when to plant
crops and what kinds to plant. And it helps emergency workers respond to natural disasters.

The more people know about Earth and its current and predicted changes, the better decisions
they can make.

"What Is Earth" from NASA Knows (2015) is in the public domain.

Unless otherwise noted, this content is licensed under the CC BY-NC-SA 4.0 license

4. extreme lack of food

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