ROCKS.pptx

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THE THREE MAIN
CATEGORIES OF
ROCKS
Welcome to
Rock Types
101
Today we're going to SENIOR
explore the fascinating
world of rocks!
HIGH
Can anyone name the
three main types of
rocks?
Get ready to embark on a
geological journey!
 Rocks are solid natural substances
composed of minerals.
The Earth's crust is made up of

What
various kinds of rocks.
Each rock type has its unique
formation process and
characteristics.
Why do you think rocks are

Are
important for our planet?

Rocks?
The Rock
Cycle
◦ A continuous process that
describes the transformation of
rocks.
◦ Igneous rocks can become
sedimentary or metamorphic.
◦ Sedimentary rocks can become
metamorphic or melt into
magma.
◦ Metamorphic rocks can melt or
become sedimentary.
◦ How does the rock cycle
contribute to the ever-changing
nature of Earth's surface?
Igneous
Rocks
Formed from the cooling and
solidification of magma or lava.
Can be intrusive (cooling inside
the Earth) or extrusive (cooling
on the surface).
Examples: Granite (intrusive) and
Basalt (extrusive).
What might the texture of an
igneous rock tell us about how it
was formed?
Sedimentary
Rocks
Created from the
accumulation of sediment
over time.
Often found in layers, with
fossils sometimes present.
Examples: Sandstone and
Limestone.
How do you think
sedimentary rocks can
reveal Earth's history?
Metamorphic
Rocks
◦ Formed under the influence of
high pressure and temperature.
◦ Undergo a process called
metamorphism, changing their
composition and texture.
◦ Examples: Slate (from shale)
and Marble (from limestone).
◦ Can you think of any uses for
metamorphic rocks in
construction?
 Igneous Rocks:
Intrusive vs. Extrusive
Intrusive igneous rocks cool
slowly beneath the Earth's
surface, resulting in large
crystals.
Extrusive igneous rocks cool
quickly on the Earth's surface,
resulting in small crystals.
Compare and contrast:
Granite's large crystals vs.
Basalt's fine texture.
Why might the location of rock
formation matter?
Metamorphic
Rocks: Foliated vs.
Non-Foliated
◦ Foliated metamorphic rocks have
a layered or banded appearance.
◦ Non-foliated metamorphic rocks
do not have a layered texture.
◦ Examples: Slate (foliated) vs.
Marble (non-foliated).
◦ How might the appearance of a
metamorphic rock reflect its
history?
 Formation of Igneous
Rocks
Magma cools and
solidifies to form
igneous rocks.
The rate of cooling
affects the crystal size
and texture.
Volcanic eruptions can
rapidly cool lava,
forming extrusive rocks.

 Formation of
Sedimentary Rocks
◦Sediments are deposited in layers
over time, often in water.
◦Layers are compacted and
cemented to form sedimentary
rocks.
◦The process can take millions of
years.
◦Consider how the environment of
deposition might influence the
type of sedimentary rock formed.
Formation of Metamorphic Rocks
Existing rocks are transformed by heat and pressure within
the Earth.

The original rock, or protolith, undergoes a solid-state
change.

Metamorphism can occur over vast time scales.

How does the protolith determine the characteristics of the
metamorphic rock?
Identifying
Igneous Rocks
◦ Look for crystal size and
texture: fine-grained or coarse-
grained.
◦ Color can indicate mineral
composition: dark (mafic) vs.
light (felsic).
◦ Density and weight can also be
clues.
◦ What might a geologist infer
about an igneous rock's origin
based on its appearance?
Identifying
Sedimentary Rocks
◦ Check for layers or strata, which
are typical in sedimentary rocks.
◦ Look for the presence of fossils or
shell fragments.
◦ Grain size and shape can indicate
the rock's sedimentary
environment.
◦ Why is it significant when a
sedimentary rock contains
fossils?
 Foliation or banding is a key
feature in many metamorphic
rocks.
Identifying Hardness and resistance to
weathering can be indicators.
Metamorp Some metamorphic rocks may
hic Rocks have a shiny or glossy
appearance.
How might the process of
metamorphism alter the
properties of a rock?
Uses of
Igneous Rocks
◦ Granite is often used for countertops
and decorative facades.
◦ Basalt is used in construction, such
as road base and building stone.
◦ Pumice is used as an abrasive
material in soaps and cleaners.
◦ Can you think of other everyday
items that might contain igneous
rocks?
 Uses of
Sedimentary Rocks
◦ Limestone is used in cement
production and as a building
material.
◦ Sandstone is popular for tiles,
paving, and in aquifers for water
supplies.
◦ Coal, a sedimentary rock, is a major
energy source.
◦ What are the environmental impacts
of using sedimentary rocks?
Uses of Metamorphic Rocks
Marble is prized for sculpture and as a building material.

Slate is used for roofing tiles and as a durable flooring
material.

Schist and gneiss can be used for decorative stone and
aggregates.

How do the properties of metamorphic rocks make them
suitable for these uses?
Environmental Impact
of Rock Mining
◦ Mining can lead to habitat destruction and
pollution.
◦ The process can also cause soil erosion and
contribute to water scarcity.
◦ Sustainable mining practices are essential
to minimize damage.
◦ What can we do to reduce the
environmental impact of rock mining?
 Review: The Three
Main Types of
Rocks
◦ Igneous: Formed from cooled
magma or lava.
◦ Sedimentary: Made from
compacted sediments.
◦ Metamorphic: Altered by heat
and pressure.
◦ How do these rock types
interact within the rock cycle?
 Class Activity: Rock
Identification
Let's apply what we've learned by identifying some
rock samples!

Examine the texture, color, and composition of each
sample.

Work in groups to classify the rocks and share your
findings.

What clues helped you determine the type of rock
you have?
Welcome to
Geology!
◦ Welcome, future geologists,
to our exploration of rocks!
◦ Rocks form the foundation
of our Earth – literally!
◦ Today, we'll delve deep into
the three main rock types.
◦ Are you ready to rock? Let's
start our geological
adventure!
Defining
Rocks
◦ Rocks are more than
just stones underfoot;
they're Earth's building
blocks.
◦ Composed of one or
more minerals, each
rock tells a story.
◦ Think about this: How
do rocks impact our
daily lives?
 Rocks are not just
for collecting;
they're crucial for
The our civilization.
They provide
Significa materials for
construction,
nce of technology, and
even art.
Rocks Can you list some
ways rocks are used
in your community?
Igneous Rocks
Up Close
◦ Igneous rocks are born from
fire – the cooling of magma
or lava.
◦ Their formation can be a
spectacle, like a volcanic
eruption!
◦ What do you think the
presence of crystals says
about an igneous rock's
past?
Sedimentary Rocks:
Earth's Storytellers
◦Sedimentary rocks are like
pages in Earth's history book.
◦They can tell us about past
environments and life forms.
◦Imagine you're a detective;
what could layers in
sedimentary rocks reveal?
Metamorphic Rocks: Masters of
Disguise

If rocks could
Metamorphic
They can evolve talk, what tales
rocks have lived
from either of
multiple lives,
igneous or transformation
transformed by
sedimentary would
extreme
rocks. metamorphic
conditions.
rocks tell?
Rock Cycle
Dynamics
◦ The rock cycle is
Earth's grand recycling
scheme.
◦ It's a never-ending loop
of creation,
destruction, and
rebirth.
◦ How do you think the
rock cycle affects the
landscape around us?
Textures of
Igneous Rocks
◦ Igneous rocks can be fine-
grained like basalt or coarse-
grained like granite.
◦ The texture gives clues about
their underground journey.
◦ What might a very coarse
texture indicate about an
igneous rock's cooling
history?
◦Each layer in
sedimentary rocks
represents a period in
Earth's history. Layers of
◦Fossils within these
layers can date back
Time in
millions of years. Sedimenta
◦How might the ry Rocks
thickness of layers
affect what we learn
about Earth's past?
 Patterns in
Metamorphic
Rocks
◦ The patterns in metamorphic
rocks, like foliation, tell a
story of pressure and heat.
◦ These patterns can be as
intricate as artwork.
◦ What might the presence of
foliation suggest about the
environment of formation?
Volcanic Activity
and Igneous
Rocks
◦ Volcanoes are nature's igneous
rock factories.
◦ When lava erupts and cools, it
forms new igneous rocks on
Earth's surface.
◦ How does volcanic activity
contribute to the diversity of
igneous rocks?
 Sedimentary rocks start as
Sedime loose grains that travel
and settle.
nts to Over time, these sediments
Stone: are pressed together,
turning into rock.
The Consider the journey of a
sand grain from mountain
Journey to sedimentary rock. What
might it encounter?
Metamorphism: A
Rock's Evolution
◦ Metamorphism is the
ultimate makeover for
a rock.
◦ It's a process that can
radically change a
rock's identity.
◦ If you could witness
metamorphism, what
changes do you think
you'd see?
Mineral
Composition of
Igneous Rocks
◦ The minerals in igneous rocks
can range from dark (mafic)
to light (felsic).
◦ These minerals are like
ingredients in a recipe, each
adding different qualities.
◦ How might the mineral
composition affect an igneous
rock's color and density?
Fossils: Echoes of Ancient Life
◦Fossils in sedimentary rocks are
snapshots of ancient life.
◦They provide invaluable information
about past ecosystems.
◦Why do you think finding a fossil in
a rock is a significant discovery?
 Metamorphic
Textures: Reading
the Rocks
◦ The texture of a metamorphic
rock can reveal its history and
formation conditions.
◦ Textures can range from
banded to non-foliated, each
with a story.
◦ What might a non-foliated
texture indicate about the
metamorphic conditions?
Geological Uses
of Igneous Rocks
◦ Igneous rocks are not just
beautiful; they're
functional in construction
and design.
◦ Their durability makes
them ideal for many
architectural applications.
◦ How does the strength of
igneous rocks benefit us
in building structures?
 Sedimentary rocks like
limestone and sandstone
have been used in
Sediment architecture for
ary Rocks centuries.
Their workability and
in aesthetic appeal make
them popular choices.
Architect What architectural
ure features might benefit
from the properties of
sedimentary rocks?
Metamorphic Rocks
in Art and Design
◦ The beauty of
metamorphic rocks like
marble has inspired artists
throughout history.
◦ Their unique textures and
colors add elegance to any
space.
◦ Can you think of famous
artworks or buildings that
feature metamorphic
rocks?
 Let's recap: Igneous rocks
form from magma,

Rock
sedimentary from
sediments, and
metamorphic from

Types: transformation.

A
Each rock type plays a
unique role in the rock
cycle.

Summar How do you think the
y properties of each rock
type affect their role in
the cycle?
Interactive Rock
Identification
◦ Now, let's put your knowledge
to the test with real rock
samples!
◦ Examine their characteristics:
texture, color, and layering.
◦ Share your findings with the
class. What was the most
interesting rock you
identified?
Introduction to
the Rock Cycle
◦ What is the rock cycle and why
is it significant in geology?
◦ The rock cycle is a model that
describes the formation,
breakdown, and reformation of
a rock as a result of natural
processes.
◦ It illustrates how Earth's rocks
are interconnected in a
dynamic system.
◦ Think about this: How does the
rock cycle demonstrate the
concept of change over time?
The Forces Driving
the Rock Cycle
◦ Plate tectonics: The movement
of Earth's plates can create
mountains and cause volcanic
activity.
◦ Weathering and erosion: How do
these processes contribute to
the formation of sedimentary
rocks?
◦ Heat and pressure: These forces
deep within the Earth can
transform rocks into new forms.
◦ Can you identify an example of
how these forces affect rocks in
your local area?
Magma: The Birth of Igneous
Rocks
◦Magma is molten rock located beneath the
Earth's surface.
◦When magma cools and solidifies, it forms
igneous rocks.
◦The location and conditions of cooling determine
whether the rock is intrusive or extrusive.
◦How does the rate of cooling affect the size of
the crystals in igneous rocks?
Erosion and Sedimentation: The
Life of Sedimentary Rocks
◦Erosion breaks down rocks into smaller pieces
called sediments.
◦Sedimentation occurs when these particles settle
into layers and accumulate over time.
◦Over millions of years, pressure compacts these
layers into sedimentary rocks.
◦What role do rivers and oceans play in the
transport and deposition of sediments?
Metamorphism: The
Transformation of
Rocks
◦ Metamorphism is the process by
which rocks are altered by extreme
heat and pressure.
◦ This process can occur deep within
the Earth's crust or at tectonic plate
boundaries.
◦ The original rock, known as the
protolith, can be igneous,
sedimentary, or even another
metamorphic rock.
◦ What might trigger the metamorphic
process in a rock?
The Return to Magma: Melting
Rocks
Under extreme Subduction zones,
The cycle
conditions, rocks where one
continues as this
can melt and tectonic plate
magma can
return to a molten slides beneath
eventually cool to
state, becoming another, are
form new igneous
magma once common sites for
rocks.
again. rock melting.
How does the
composition of
the original rock
affect the type of
magma formed?
Human Interaction
with the Rock Cycle
◦ Mining and quarrying are human
activities that directly interact with
the rock cycle.
◦ These processes can accelerate
erosion and expose rocks to
different conditions.
◦ How do our actions influence the
natural processes of the rock cycle?
◦ Discuss the balance between
human resource needs and
geological conservation.
Rock Cycle and
Soil Formation
◦ Soil is formed from the weathering of
rocks and the accumulation of organic
material.
◦ The rock cycle plays a crucial role in
creating the mineral component of soil.
◦ Different rock types contribute to the
diversity of soils around the world.
◦ Why is soil considered an essential
component of the Earth's ecosystem?
 Rock Cycle: A Reflection of
Earth's History
◦The rock cycle is a reflection of Earth's geological
history and processes.
◦Rocks of different ages tell stories of the Earth's past
environments and events.
◦By studying the rock cycle, we can understand the
evolution of our planet.
◦How might the study of the rock cycle help us predict
future geological changes?