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 ![[rock formations]](images/studyrocks2.jpg) Have
you ever experienced an earthquake? Do you live near a volcano? Do you like
rocks and minerals? If you answered "yes" to any of these questions
then the geoscientists who study the solid part of the Earth would interest
you. They want to know how our planet formed, how it works, where it contains
resources, and how it is likely to change in the future. Answers to these
and many other questions are written in the rocks that form Earth's solid
body.
Some geoscientists
examine the origins of the spectacular features of our planet, including;
mountain ranges, deep ocean valleys, volcanoes, and great faults. Because
of their investigations, we know that Earth's rigid outer shell, the lithosphere,
Some geoscientists
study energy released by earthquakes and other sources (like nuclear explosions).
This energy travels through Earth as sound waves. By recording these sound
waves at places distant from the earthquake, geoscientists are able to
image the interior of Earth. Most earthquakes occur at boundaries where
tectonic plates interact.
Some geoscientists
study volcanoes. Volcanoes erupt when molten rock from deep within Earth's
mantle moves to the surface. This molten rock is called magma There are many other solid Earth geoscientists:
Some geoscientists apply geologic data, techniques, and principles to study phenomena that affect structures such as bridges, buildings, airports, and dams. We call these geoscientists - Engineering Geologists Some geoscientists study how soils are involved in plant growth, and how they impact human activities. They also investigate how land resources can be used and restored. We call these geoscientists - Soil Scientists |
![[man taking measurements on rock formation]](images/studyrocks3.jpg)
is
divided into big pieces called tectonic plates. These tectonic plates
move very slowly, about as fast as your fingernails grow. They float on
hotter, softer rocks in the mantle and where tectonic plates spread apart,
new lithosphere is created. Where they collide, mountain ranges such as
the Himalayas may form. Volcanoes and earthquakes are concentrated near
the edges of tectonic plates, where they pull apart or get pushed under
one another. Earthquakes can also occur where tectonic plates slide past
each other along faults such as the San Andreas. What monstrous force
is able to move tectonic plates? The force is gravity. What do we call
these geoscientists? Solid Earth Geophysicists and Structural Geologists![[scientist reading charts]](images/read-chart.jpg)
The
plates do not move smoothly; occasionally they get stuck, deform, and
then suddenly break apart resulting in earthquakes. Some of these geoscientists
work to understand the causes of earthquakes so that loss of life and
property may one day be avoided. They work closely with construction engineers
to make buildings stronger in earthquake-prone areas where many people
- including you - may live. Other geoscientists are employed by the energy
industry and use sound waves passing through the lithosphere to look for
oil and natural gas, providing the fossil fuels that power modern civilization.
What do we call these geoscientists? Seismologists
when
it is in the ground and lava when it is on the surface. Scientists who
study active volcanoes visit them before, during, and after eruptions
in order to collect gases, lava, and ash for analysis. They also examine
older, dormant volcanoes. They want to understand how volcanoes form,
and when and why they erupt. What do we call these geoscientists? Volcanologists![[man with microscope]](images/micro.jpg)
Some
geoscientists examine rocks formed in or on Earth's crust, as well as
those brought up from deep in Earth's interior. To figure out how these
rocks formed, they may cut a very thin slice of rock in a laboratory
and examine it with a microscope. They determine what minerals a rock
contains and the conditions of heat and pressure under which they formed.
This tells the geoscientists where the rock came from. We call these
geoscientists - Petrologists and Geochemists ![[man setting up equipment]](images/rock-station.jpg)
Some
geoscientists measure small changes in the shape and motions of Earth.
They set up observation points on Earth's surface and then measure the
exact positions of these points using satellites. These measurements
are so accurate that they can monitor the very slow movement of Earth's
tectonic plates. They team up with mapmakers to produce maps. We call
these geoscientists - Geodesists![[scientists at computer]](images/rock-computer.jpg)
Some
geoscientists measure Earth's magnetic field, which originates deep
within the planet and extends into outer space. When rocks are formed,
the crystals inside may line up with Earth's magnetic field, like a
lot of compass needles. Such rocks record a long history of Earth's
magnetism. This record shows how the continents have moved and how Earth's
magnetic field has fluctuated and even reversed direction. We call these
geoscientists - Geomagnetists ![[scientists digging in a rock tunnel]](images/miners.jpg)
Some
geoscientists explore for and develop resources such as coal and oil.
Many even search for precious metals like gold! They also study mineral
deposits and find environmentally safe ways to dispose of waste materials
from mining activities. We call these geoscientists - Economic Geologists
