General Definition: The
momentary shocks experienced by earth at different locations & different
time.
Technical
Definition : Vibration induced in
earth's crust due to internal and external
causes that virtually shake up a part of crust , structures & living &
non-living thins existing on it.
Terminology :
1. Seismology : The science dealing with the study of
earthquake in all their aspect is called seismology.
2. Seismic : Used to qualify anything related to
earthquake e.g.: seismic wave seismic intensity, seismic zone, seismic region.
3. Focus : Place or point of origin of an earthquake
below surface of earth is focus (hypocenter). It may lie from a few hundred meters
to hundred of km below earth's surface.
4. Epicenter : Point or place on the surface vertically
above focus is epicenter. Its placed on surface of earth where vibration of
particular earth quake reach first of
all .
5. Seismic wave : During each earthquake elastic wave are
generated at the focus. These wave are called seismic wave & they travel in
all directions. with their characteristics and
velocity.
Types of seismic wave :
1. P Waves :
a) Primary waves
b) Push & pull / long compression wave
c) Fastest wave
d) Velocity (Vp =
e) P wave should travel fast in rigid bodies.
2. S- waves :
a) Secondary waves
b) Shear waves, transverse wave, directional wave
c) Vs=
d) S – wave wouldn't be propagated through a liquid
medium
P waves + S waves = Body waves.
3. L-waves
a) Long wave or surface wave
b) Sluggish wave, only recorded after the arrival of P and
S –wave
c) Type of L wave
-
Rayleigh wave
-
Love wave.
|
Rayleigh
wave
|
Love
wave
|
|
1.
The complex
nature partly in the direction of propagation & party in rt. angle.
2.
Tend to distort
horz. surface into a wavy shape.
|
1.
Horizontal
Propagation in direction of propagation.
2.
To create
shearing , breaking & rupture
|
Magnitude: Rating
of an earthquake on the basis of amplitude of seismic wave recorded in
seismograph. The scale used is Richter scale (8.9 highest ever)
|
Intensity
|
Type
|
Magnitude
|
Effects
|
|
I
|
Instrumental
|
|
Recorded
by sismograph only
|
|
II
|
Very
feeble
|
3.5-4.2
|
Felt
by some person
|
|
III
|
Slight
|
Felt
by every one at rest
|
|
|
IV
|
Moderate
|
4.3
- 4.8
|
Felt
by people in motion
|
|
V
|
Rather
strong
|
Felt
outdoors and indoors
|
|
|
VI
|
Strong
|
4.9-5.4
|
General
Panic
|
|
VII
|
Very
strong
|
5.5-6.1
|
Breaking
of furniture
|
|
VIII
|
Destructive
|
6.2
- 6.9
|
Fall
of tanks projection C-D class building collapsing
|
|
IX
|
Ruinous
|
Cracks
develop in the ground
|
|
|
X
|
Disastrous
|
7-7.3
|
General
destruction of all classes of building, bridges dams.
|
|
XI
|
Very
disastrous
|
7.4-8.1
|
Fissuring
of ground
|
|
XII
|
Catastrophic
|
>8.1(8.9)
|
Total
destruction in the region in terms of life.
|
Rating in a qualitative manner on
the basis of its effect on living & non-living things. Scale used is Mercalli
scale
Classification of Earthquake :
a) Based on
depth of focus.
1. Shallow – up 60 km
2.
Intermediate 60-300
3. Deep seated 300-700
b) Based
on magnitude
Class Magnitude
A 7.8 and above
B 7.0-7.7
C 6.0-7.7
D 5.3-6.0
E less than
5.3
c) Based
on cause of origin :
1) Tectonic earthquake : due to faulting or
relative displacement of plates along rupture surface
2) Non tectonic earthquake : Volcanic eruption,
landslide, atomic explosion., subsidence.
Engg. Consideration
a)
To know seismic history of any area
b)
Assessment of seismic risk
c)
A seismic designing
Geo Physics
i)
Is a tool to detect the physical properties of the
subsurface materials
ii)
Main methods used are
a) Resistively
method
b) Seismic
method.
c) Reflection
method
d) Magnetic
iii)
The sensing devices used are called geophones (microphone)
converts seismic vibration or motions of the earth to electrical impulses.
Used to Detect
1.
Depth of bedrock
2.
Shape of bedrock surface
3.
Depth of water table
4.
Fault location
5.
Rip ability assessment
6.
Blasting assessment
7.
Sand and gravel assessment
8.
Cavity detection
9.
Determination of dynamic elastic constant.
General Rules
1.
Velocity is roughly proportional to the degree of
consolidation of rock or soil.
2.
In consolidated materials, velocity increases with
water content.
3.
Weathering of rock will greatly reduce it's velocity.
4.
A particular rock type will include a range of
velocities and these ranges may overlap for different rock types.
5.
Correlation of velocity with the type of earth
materials, to a great extent will depon upon the overall geological characteristics
of the area under study.
Electric resistivity
method – Give a physical property that characterizes a material almost as
definitely as its density.
-
Resistivity depends upon the quality and the quantity
of the water filling the open spaces in the rock.
-
The flow of current through soil and rock is by ion
conduction which is dependent on a combination of the conductively of the fluid
present, porosity and percentage of saturation.
-
Dissolved salt – provide ion conductance of the
electrical current
-
Rock forming mineral-high resistive to current flow.
-
The resistivity method is a valuable one for identifying
layered subsurface materials that have different electrical properties.
Volcanic processes
-
1984-<500 volcanoes have been active
-
Around the margin of the pacific ocean
-
Location where molten rock or magma, issues from deep
within the earth.
-
Explosiveness a viscosity and water
content
-
volcanic Hazards Lava flows, Hot avalanches, mudflows
and flood, volcanic ash (Tephra) and gases.
-
Mitigation
a)
Prevent land use regulation in high hazard area.
b)
Explosives and barriers to divert lave flow.
No comments:
Post a Comment