This document provides an overview of petrology, the geological classification of rocks, and their structures and textures. It discusses the three main types of rocks - igneous, sedimentary, and metamorphic - and how they form. Igneous rocks form from the cooling of magma or lava. Sedimentary rocks form through the compaction and cementation of sediments. Metamorphic rocks form from changes to existing rocks through heat, pressure, and chemically active fluids. The document also outlines common structures within each rock type, such as vesicles in igneous rocks, stratification in sedimentary rocks, and foliation in metamorphic rocks. Finally, it discusses the importance of petrology for civil
2. INDEX
INTRODUCTIONTO PETROLOGY
GEOLOGICAL CLASSIFICATION OF ROCKS
DYKES AND SILLS
COMMONTEXTURE
STRUCTURES
ROCK CYCLE
CIVIL ENGG. IMPORTANCE
CONCLUSION
3. PETROLOGY AND ITS DEFINITION
Petrology (from Greek: Petra, rock;
and logos, knowledge) is the
branch of GEOLOGY that studies
rocks, and the conditions in which
rocks form.
The subject matter of
PETROLOGY consists the origin,
association, occurrence, mineral
composition, chemical composition,
texture,structure,physical properties,
etc., of rocks .
Where as PETROGRAPHY
deals with the descriptive part of
rocks and PETROGENY deals with
the mode of formation of rocks.
These two together makeup
Petrology.
4. GEOLOGICAL CLASSIFICATION OF ROCKS
The rocks are classified in various ways based on different
principles such as Physical, Chemical ‘n’Geological
Classifications. Among the different classifications.
Geological classification of rocks is the most proper because
grouping of rocks is more logical , less ambiguous, orderly and
comprehensive.
The Geological classification of rocks is based on their
MODE OF ORIGIN. They are
1) IGNEOUS ROCKS
2) SEDIMENTARY ROCKS and
3) METAMORPHIC ROCKS.
5. DEFINITIONOFROCK
Natural solid massive aggregate of minerals
forming the crust of the earth.
(or)
An unit of the earth’s crust which is formed
with minerals.
7. IGNEOUSROCKS
These are primary rocks, Most
abundant rocks in the earth’s crust.
These are formed at a very
high temperature and pressure
conditions directly as a result of
solidification of magma or lava.
MAGMA: The term magma is
applied when the melt is
underground.
LAVA: The melt when it reaches the
earth’s surface and flows over it, is
called lava.
SOME IGNEOUS ROCKS
9. Volcanic/Extrusiverocks
Rocks that results when lava solidifies
These rocks cools quickly and usually
has small grains
Some rocks cools so fast and don’t has
grains at all
Eg:The Deccan traps of India spread
over more than 4 lakh sq.km in
Peninsular India
11. Melt
liquid portion of a magma body.
composed of ions that move about
freely.
Crystallization
random movements of the ions slow,
and the ions begin to arrange
themselves into orderly patterns.
12. cooling strongly influences crystal size.
slow cooling results in the formation of
large crystals.
quick cooling results the formation of
solid mass of small intergrown crystals.
14. Plutonic/Intrusiverocks
• Rocks that results when magma solidifies
• Rocks that formed at considerable depths
between 7-10 sq.km below the surface of the
earth
• These rocks cools quickly and usually has large
grains
17. Hypabyssalrocks
These are formed at intermediate stage below
the earth surface
Rocks that formed at considerable depths up to
2kms
They show mixed character of volcanic and
plutonic rocks
Eg: porphyries with different compositions
18. Sedimentary Rocks
Sedimentary Rocks are formed
when rocks ‘settle out’of
water or air.
Secondary rocks
There are 2 Types of
Sedimentary Rocks
Chemical
clastic
The rock pieces are then
cemented together for form
Sedimentary Rocks
They also contain many fossils
from millions of years ago!
19. Sediments are the products of
weathering. Since these are
secondary materials(i.e., derived
from pre-existing rocks), the
rocks formed out of them are
called sedimentary or secondary
rocks.
The origin of sedimentary rocks is
totally related to the weathering
influence on rocks.
Eg: Shale, Sandstone,
Conglomerate, Flint, Limestone
20. Sediments are loose, unconsolidated
accumulations of mineral rock particles that
have been transported by wind, water, ice, or
gravity and re-deposited.
Derived from the Latin sedimentum means
settling, reference to a solid material settling
out of a fluid.
21. Sedimentary rocks often look like
glued together rocks, pebbles, or
sand.
sandstone conglomerate
22. Formation:
weathering of pre-existing rocks either by
physical breakup into finer and finer
fragments, or by solution.
precipitation of crystals out of solution.
usually, the particle are broken down
further during this transport phase.
sediment become lithified, or turned to
rock.
Some rocks forms when water evaporates
and minerals left behind
24. fossils are often found in sedimentary rocks.
Plants & animals are caught in the layers of
sediment and leave an imprint in the rock.
rock salt
FlintLime stone
25. Types of sedimentary rocks
Clastic(mechanically formed) rocks:
Clastic sedimentary rocks are rocks which are
composed predominantly of broken pieces or clasts of
older weathered and eroded rocks.
26. chemically(Non-clastic)formed:
Chemical sedimentary rock forms when mineral
constituents
in solution become supersaturated and
inorganically precipitate. Common chemical
sedimentary rocks include oolitic limestone and
rocks composed of evaporite minerals such
as halite (rock salt), sylvite, barite andgypsum.
27. Metamorphic rocks
Metamorphism literally means change.
The change in pre-existing rocks under the
influence of temperature, pressure and
chemically active solutions.
The metamorphic rocks formed from igneous
rocks are called Orthometamorphic rocks and
those formed from sedimentary rocks are
called Parametamorphic rocks.
28. Metamorphic Rocks are found in areas that have
been under lots of pressure and/or temperature.
ex: mountains
There are 2 types of Metamorphic Rocks:
Foliated
Non-foliated
They can form from either igneous rocks or
sedimentary rocks
Eg: Sandstone changes to quartzite
Granite changes to gneiss
32. TypesofMetamorphicrocks
Foliated:
As a result of compression and
stress on the rock, the minerals
within the rock align
themselves perpendicular to
the direction of stress.
This alignment creates the
banding/foliation in the
rock.
33. Non-foliated:
In general, many non-foliated
rocks have not undergone a great
amount of stress, and therefore,
do not show foliation.
Also, the minerals that
compose non-foliated rocks are
equidimensional crystals. As a
result, no foliation would appear
because all the mineral grains
look similar.
34. Dykes and Sills
Most common forms of igneous rocks
Dykes are discordant, sheet like structures,
vertically or inclined.
Dykes are formed by the intrusion of magma
into pre-existing fractures.
Those igneous intrusions that have been
injected along or between the bedding planes
are sills.
36. Common structures of igneous rocks
Physical appearance of rocks including size, shape
and forms.
types
Vesicular structure
Amygdaloidal structure
Columnar structure
Sheet structure
Flow structure &
Pillow structure
37. vesicularstructure:
Vesicular structure is
a volcanic rock
structure characterized
by a rock being pitted
with many cavities
(known as vesicles) at
its surface and inside.
Basalt
38. Amygdaloidal structure:
The drop in pressure that a magma
experiences as it flows from
underground to the Earth's surface
allows water and gases in the lava
to form bubbles. If the bubbles do
not get large enough to pop, they
are frozen in the lava as vesicules.
Amygdaloids are simply vesicles
that have been filled in with a
secondary mineral long after the
flow cooled. Such secondary
minerals are commonly white:
quartz, calcite, or zeolite. (A
secondary mineral is one that
formed after the rock originally
formed.) Olivine basalt
39. Columnar structure:
the structure of a
mineral aggregate
that is made up of
nearly parallel
slender columns
and that is
intermediate
between an equant
and acicular
structure (as in
some amphiboles)
Columnar Basalt
40. Sheet structure :
The development of
one set of well defined
joints sometimes
brings about a slicing
effect on the massive
igneous rock body. If
all such slices are
horizontal, the
structure is said to be
sheet structure.
Rock with mica sheets
41. Flow structure:
These structure is planar or linear features that
result from flowage of magma with or without
contained crystals. Various forms of faintly to
sharply defined layering and lining typically
reflect compositional or textural in
homogeneities, and they often are accentuated by
concentrations or preferred orientation of
crystals, inclusions, vesicles and other features.
42. Pillow structure:
These structure consists aggregates
of ovoid masses, resembling pillows
or grain-filled sacks in size and
shape, that occur in many basic
volcanic rocks. The masses are
separated or interconnected, and
each has a thick vesicular crust or a
thinner and more dense glassy rind.
The interiors ordinarily are coarser-
grained and less vesicular. Pillow
structure is formed by rapid chilling
of highly fluid lava in...
43. COMMON STRUCTURES OF
SEDIMENTARY ROCKS
Sedimentary structures are those structures formed
during sediment deposition.
Stratification:
A layered arrangement in sedimentary rock.
Different layers also called beds or strata may be
similar or dissimilar.
Lamination:
layered structure similar to stratification but
layers are quite thin.
44. Cross bedding: layers lying above one another
are not parallel having inclined relation.
Graded bedding: sediments are arranged
according to their grain size.
Mud cracks: having many fine sized grains with
irregular cracks.
Ripple marks: symmetrical wave-like
undulations in a layer.
45. COMMON STRUCTURES OF METAMORPHIC
ROCKS
Themostcommonstructures foundinmetamorphicrocksare;
1)Gneissosestructure:bandsof flakyminerals
2)Schistose structure: parallellayers
3)Granulosestructure:havinggranularminerals
46. TEXTURE
The size, form and orientation of clasts or
minerals in a rock is called its texture.The
texture is a small-scale property of a rock, but
determined many of its large-scale properties,
such as the density, porosity orpermeability
47. i. Coarse-grained Texture
- appearance of a mass of intergrown
crystals, which are roughly equal in
size and large enough to be identified
with the unaided eye.