Ecosystem Interactions Class Discussion Presentation in Blue Green Lined Styl...
Geo ba i_interior of earth_mixed version
1. Punjab Edusat Society Production
SUBJECT : GEOGRAPHY
CLASS : BA PART I
CHAPTER : EARTH
TOPIC : INTERIOR OF THE EARTH
Cut to MM 1:
Montage showing Solar System and then focusing Earth and its various life
forms, upcoming mountains, sea floor spreading, earthquake structure, volcanic
eruption and then close up of interior earth
(Capsule Solar System, Biosphere, Plate tectonics and Mt building,
Earthquake, Structure of Volcano,
VO 1:
Our Earth holds a prominent place in the Solar System. This planet is unique
because of the availability of life on it. Manifold changes have been taking place
on its surface like formation of mountains, spreading of sea floor, natural
disasters like earthquake and volcanic eruptions. This gives us immense
evidences that extensive forces are acting from within the earth and bringing
these changes. In order to understand the nature of these changes, let’s explore
the inside earth.
Cut to ANCHOR 1:
Hello Students! Welcome to today’s module-Interior of the Earth. You all must
have got a fair idea after seeing the visuals that the elementary knowledge of
constitution of the Earth is necessary to understand the nature of changes taking
place on the Earth’s surface. Could you ponder over the thought that what
constitutes the interior of the earth? What is the nature of the surface of the
earth? Or why is it that when Volcano erupts it emits hot, molten lava? We are
going to unfold reasons to all these queries. But first of all, let me share with you
the learning objectives for today’s lesson.
On board activity 1
Cut to our hi-tech board on which the following SUPER appears:
LEARNING OBJETIVES
Upon completion of the module, the learner will be able to-
Explain the structure of the Earth
List an overview of the layers of the Earth
Discuss the physical state of the Earth’s interior
List the density and pressure of the Earth’s interior
Give an account of temperature of the Earth’s interior
Describe the various evidences regarding the constitution of the Earth’s
interior
1
2. • Artificial Sources
• Theories from the Origin of the earth
• Seismological Evidences
Define Primary, Secondary and Surface Waves
Discuss the constitution of the Earth’s interior as postulated by –
Suess, Daly, Jeffrey and Arthur Holmes
Describe the constitution of Earth’s interior on the basis of Recent Views
Describe the features of each layer of the Earth i.e., Crust, Mantle and
Core
Write a short note on Sial, Sima, Nife, Moho Discontinuity, Wiechert-
Gutenberg Discontinuity, Earth Crust, Mantle and Core
On board activity 2
Cut to our hi-tech board on which the following SUPER appears:
Introduction
ftfdnkoEhU eh s[;hI ikDd/ j' fe Xosh d/ roG ftZu eh j?<
fJj ftFk G{r'b ftfrnkBh ns/ ftfrnkBhnK bJh F{o[ s'I jh
fyZu dk e/Ido pfDnk fojk j?. id''I i{b; toB/ B/ 1864 s'I
@Xosh d/ roG tb :ksok# (Journey to the centre of the Earth) fbyh
U[d''I Xosh d/ roG dh gqfeqsh fej' fijh j? fJ; pko/ eJh
fto'Xh f;XKs gquZbs ;B. e[M G{ftfrnkBh ;'ud/ ;B fe Xosh
pj[s f}nkdk dZphnK j'JhnK r?;K dk r'bk j? id fe eJh j'o
nfijk nB[wkB bkT[Id/ ;B fe fJ; ftu tyo'-tZyo/ gdkoEK dhnK
gosK jB. j[D brgr fJe ;dh pknd th ;kv/ e'b e'Jh f;ZXk ;p{s
BjhI, fi; okjhI d; ;ehJ/ fe Xosh fe; uh} dh pDh j'Jh j?.
Xosh d/ roG pko/ ;kvh ikDekoh ngosy ftfrnkBe gqwkDK s/
nkXkfos j?. fJ;s'I gfjbK fe n;hI tZyo/-tZyo/ ;p{sK s/
ftuko eohJ/, nkU gfjbK Xosh dh ouBk pko/ gqkgs ikDekoh s/
T[gobh B}o wkfoJ/ .
Anchor pulls the relevant super
An Overview of the Layers of the Earth
The Earth is divided into different layers like a giant onion, each with its own
particular characteristics. Take a look at the slides to see the visual on structure
of the Earth.
Cut to MM 2
2
3. VO 2:
The planet Earth is made up of three main shells: the very thin, brittle Crust, the
Mantle, and the Core; the mantle and core are each divided into two parts i.e.
upper mantle and lower mantle and outer core and inner core. Although the
core and mantle are about equal in thickness, the core actually forms only 15
percent of the Earth's volume, whereas the mantle occupies 84 percent. The
crust makes up the remaining 1 percent. Thus, the solid crust on which we live is
no thicker in relation to the Earth than an egg shell.
Cut to Anchor 2
Anchor pulls the relevant super
Sources of Knowledge about the Interior of Earth
There are few direct as well as some indirect evidences about the structure of the
Earth. As regards physical conditions, direct evidence is available from mines,
which do not extend beyond a depth of 4km. So our knowledge about the interior
of the earth is based upon indirect scientific evidences. These sources may be
classified into three groups:
On Board Activity
Evidences about Interior Earth
Artificial Evidences from the theories of the Origin of Earth Natural
Sources
Density Vulcanicity
Pressure Seismology
Temperature
Anchor pulls the super on the screen
Density of different Shells of the Earth
id'I n;hI Xosh dhnK tZyohnK gosK dh ;zxDsk pko/ ftuko
efoJ/ sK fJ; dk nkXko G{s f;XKs , s?oB dk f;XKs j?. i/
s/b, gkDh ns/ rfb;ohB ~ fJe pheo ftZu gkU sK T[j fszB s?jK
ftZu nk iKd/ jB. ;G s'I jbek sob s/b ;G s'I T[go nk ikt/rk
ns/ T[;s'I EZb/ gkDh s/ nyho ftZu rfb;ohB. fJ; soQK Xosh
3
4. fizBQK gdkoEK dh pDh j'Jh j?, fJj gdkoE th fJe d{i/ d/
T[go s?od/ jB jkbKfe fJBQK ftu'I e[M nzF m'; jB.
fszB ;dhnK gfjbK nzro/} ftfrnkBh fJ;ke fBT{NB (Isaac
Newton) B/ rq?jK ns/ r[o{st nkeoFB pb d/ nfXn?B d/ nkXko s/
fJj rDBk ehsh fe Xosh dh n";sB ;zxDsk ,fJ;dh ;sj s/ gkJhnK
iKdhnK uNkBK s'I d[rDh j? ns/ fJT[I Xosh dk roG pj[s ;zxD/
gdkoEK dk pfDnk j'fJnk j?. jkbKfe fBT{NB d/ ;w/I s'I b? e/
j[D sZe Xosh d/ nzdob/ fjZ;/ pko/ ;kv/ frnkB ftZu ekch
tkXk j'fJnk j? go fBT{NB dh rDBk dk nzdk}k fBFu/ s"o s/
pdfbnk BjhI j?. nkU Xosh dhnK ty'-tZyohnK s?jK dh ;zxDsk
pko/ ikDhJ/.
Cut to MM 3
VO 3
It is commonly believed that the outer thinner part of the earth is composed of
sedimentary rocks with an average density of 2.7. Just below this, there is the
second layer of igneous rocks with an average density ranging between 3.0
and 3.5 at different places. The average density of the whole earth is about
5.5. It is generally estimated therefore, that the density of the core of the earth
is around 11.0. Thus, the density of the core is highest in all parts of the Earth.
Cut to Anchor 3
fit/I fJ; fuZso ftu n;hI t/fynk j? fe Xosh d/ e'o (Core)
dh ;zxDsk ;G s'I tZX j? ns/ fJ;dk Xosh nzdob/ dpk Bkb
f;ZXk ;zpzX j?. fJBQK ;bkfJvK(slides) okjhI Xosh d/ nzdob/
dpk dh ;fEsh dk ikfJ}k bt'.
Cuto MM 4
VO 4
Pressure
The weight and pressure of rocks increases with increasing depth. Hence
the density of rocks also increases with increasing depth. Thus, earlier it was
believed that the high density of the core of the earth is due to very high pressure
prevailing there because of the weight of the overlying rocks. Now according to
second opinion, the core of the earth is itself composed of heavy metallic
materials of high density like Nickel and Iron.
4
5. Cut to Anchor 4
fJ; soQK fJj nzdk}k j? fe Xosh d/ roG (e/Ido) ftZubk dpk
tk:{wzvbh: dpk s'I 30-40 bZy r[DK f}nkdk j[zdk j?. Xosh
d/ nzdob/ T[^u dpk ekoB jh itkbkw[yh cNd/ jB ns/ G[ukb
nkT[Id/ jB.
Anchor pulls the relevant super
Temperature
s[;hI ;ko/ itkbkw[yh ns/ row uFfwnK(hot springs) d// pko/
ikDd/ j'. fJj Xosh d/ nzdob/ T[^u skg d/ gOwkD jB. G{-roG
ftu id'I v{zxhnK ykBK y'dhnK iKdhnK jB sK Xosh dh ;sj s'I
brksko skgwkB tZXdk iKdk j?. fiT[I Xosh d/ EZb/ iKd/ ikU
sK jo 100 whNo dh v{zxkJh s/ 2 s'I 3 doik (Celsius)skgwkB
tZXdk j?. skgwkB dk tXDk nzdo{Bh FeshnK d/ ekoD j?,
o/fvUn?efNt gdkoEK dk ftxNB j'Dk, o;kfJfDe feqnktK ns/ j'o
eJh ekoDK Bkb Xosh dk nzdobk fjZ;k row ofjzdk j?. fJ; soQK
skgwkB dh do ftu fJe' fijk tkXk BjhI j[zdk .n;hI Xosh
dh ;sj s'I EZb/ iKd/ jK sK skgwkB ;wkB o{g ftZu BjhI
tZXdk.
Cut to MM 5
VO 5
As like pressure, the temperature also increases with increasing depth. The Core
records a temperature of 2000 degree Celsius. The high temperature prevailing
in the interior indicates the liquid or perhaps gaseous conditions prevailing at
greater depths. But at the same time there is a tremendous increase in the
pressure of overlying layers on earth’s interior. Thus even under extremely high
temperature towards the central part of the earth, the liquid nature of the core
has acquired the properties of a solid and is probably in a plastic state.
Cut to Anchor 5
r?o e[dosh ;o'sK( fiBQK dk f}eo n;hI gfjbK jh eo u{e/ jK)
s'I fJbktk Xosh dh T[sgsh pko/ tZy'-tZyo/ f;XKs Gh Xosh d/
rop pko/ gqwkD fdzd/ jB.
Anchor pulls the relevant super
5
6. Theories of the Origin of the Earth
On Board Activity
Planetesimal hypothesis: Earth originated due to accretion and aggregation of
solid dust particles known as planetesimals. Based on this, the core of the earth
should be in solid state.
Tidal hypothesis: The core of the earth should be in liquid state because the
earth has been taken to have been formed from the tidal materials ejected from
the primitive Sun.
Nebular Hypothesis: According to this, the core of the earth should be in
gaseous state. This view was suggested by Laplace.
Now we move on to the natural sources of interior earth.
Anchor pulls the relevant super
Natural Sources-Vulcanicity
Xosh dh ouBk ~ ;wMD bJh itkbk w[yhnK dh e[dosh gqfefonk
ftfrnkBh bJh nfXn?B dk w[y ;o's ojh j?. e[M ftfrnkBh
ftFtk; eod/ jB fe id'I row s/ sob bktk itkbk w[yh d/ cND
Bkb Xosh dh ;sj s/ c?bdk j? sK fJj ;wfMnk ik ;edk j? fe
Xosh dh ;sj d/ EZb/ fJe gos nfijh th j? i' sob o{g ftu j?.
fJ; sob ;sj ~ w?rwk u?Ipo fejk iKdk j? i' fe itkbk w[yh
d/ cND s/ w?rwk (T[bpdk sob) s/ bktk eZYdh j?. fJ; nzdk}/
nB[;ko fJj Bshik eZfYnk ik ;edk j? fe Xosh dk e[ZM fjZ;k
sob j?.
d{i/ gk;/ dpk d/ tZXD Bkb uNkBK dk melting point tZX iKdk j?.
fJ; soQK Xosh nzdo pj[s f}nkdk skgwkB j'D d/ pkti{d th
Xosh dk nzdo{Bh fjZ;k sob BjhI j? fJ; dk ekoD U[gobh gosK
dk Gko s/ dpkt j? . go g/gVh d/ pko pko N[ZND ekoB
nzdo{Bh uZNkBK dk melting point xZN iKdk j? fi; ekoD uZNkBK
fgxb iKfdnK jB fit/I fe n;h ikDd/ jK fe U[ZE/ b'VhIdk T[^u
skgwkB gfjbK jh w"i{d j?. fJT[I itkbk w[yh dh eko}Fhbsk
Xosh d/ roG d/ nfXn?B dk :'r ;p{s BjhI g/F eo ;edh.
Cut to Anchor 6
Anchor pulls the relevant super
6
7. Natural Sources-Seismology
eh s[jk~ gsk j? fe Seismology (;hf}wkb'ih- G{ukb-
ftfrnkB) dk eh noE j?< fJj G{ukbh sozrK s/ ;[Gkt ~ ;wMD dk
ftfrnkB j?. fJBQK G[ukbh sozrK ~ ;hf}w'rqkc Bkwe :zso
okjhI wkfgnk iKdk j?. fJj ftFtkF ehsk iKdk j? fe
;hf}wkb'ih jh nfijk ;o's j? i' Xosh d/ roG dh ;zouBk pko/
mhe ikDekoh d/ ;edk j?. s[;hI ;ko/ G{ukb dh ouBk pko/
ikDd/ j't'r/. Xosh d/ nzdo fi; EK G[ukb F[o{ j[zdk j? T[;~
c'e; efjzd/ jB ns/ G{ukbh sozrk Xosh dh ;sj wfj;{; ehshnK
ikdhnK jB. ftfrnkBe nfXn?B s'I fJ; rb dk gsk bZfrnk j? fe
id'I fJj G{ukbh sozrK Xosh d/ nzdob/ tZy-tZy GkrK EkDhI
bzxdh jB sK fJBQK sozrK d/ t/r ns/ fdFk ftu pdbkU nkT[Idk
j?. fJBQK dk behaviour (toskok) fJe wkfXnw s'I d{i/ wkfXnw
ftu nkT[D s/ pdb iKdk j?. Gkt m'; ftZu fJj j'o soQK behave
eo dhnK jB ns/ sob ftu j'o soQK.
fJj G{ukbh sozrk fszB soQK dhnK jB L
w{b iK bzpdko sozrk(Primary or Longitudinal waves),
r"D sozrk(Secondary waves) ns/
bzphnK sozrk iK ;sjh sozrk (Long waves or Surface waves)
Slide t/y' ns/ jo fJe d/ r[DK dh ikBekoh bU[ -
Anchor pulls the relevant super
Primary Waves
Cut to MM 6
VO 6
Primary waves are like sound waves in which the movement of the particles is in
the direction of the propagation of the waves. They travel with fastest speed
through solid materials. Though they also pass through liquids but their speed is
slowed down. Their average velocity is 8km/sec.
Secondary Waves are like light waves where particles move at right angles to
the rays. They can travel through solids only and they disappear in liquids.
Their average velocity is 4km/sec.
Long waves or Surface waves refer to up and down or side to side motion of
the Earth surface. They affect only the surface of the earth and die out at
7
8. smaller depths. These waves cover longest distances of all the earthquake
waves. They are most violent and destructive. Their velocity is only 3km/sec
Cut to Anchor 7
fJBQK fuZsoK okjhI s[;hI t/y ;ed/ fe id'I fJj G[ukb
sozrkI Xosh d/ nzdo ubdhnK jB sK fJBQK d/ ;[Gkn ftZu eh
coe nKU[Idk j?. ;bkfJvk (slide) ~ fXnkB bk e/ ty'.
Cut to MM 7
VO 7
Seismic waves follow curved path which indicates that there are variations of
density inside the earth. Primary and Secondary waves are recorded only up to
Mantle. The velocity also increases with increasing depth. Secondary waves are
totally absent in the core of the earth. It appears from this observation that the
core is in liquid state which is located at the depth of more than 2,900 km from
the Earth’s surface and surrounds the nucleus of the earth. P Waves passes
through the Core but is refracted at various angles based on the density of rocks.
The area between the zone of P and S waves is called as the Shadow Zone
specifying it does not receive any waves
Cut to Anchor 8
;' fJj ;G e[M frnkB d/ ;o's ;h i' Xosh d/ roG Bkb ;zpzfXs
jB. fJBQK ;p{sK ~ fXnkB ftZu oZyfdnK n;hI Xosh dh ouBk
pko/ e[M nkw fBu'V eZY ;ed/ jK.
Cut to Anchor 9:
fit/I n;hI gsk ehsk j? fe Xosh dk nzdobk skg s/ dpkn,
G[ukb sozrk dk t/r s/ okj, ;k~ Xosh dh nzdo{Bh ouBk d/
fGzB- fGzB G'fse r[DK, xDsk ns/ ;zxNeK pko/ ikDekoh d/Idk
j?. ;sj s/ gkJhnK iKdhnK uNkBK dh xDsk nzdobh ;sj s'I pj[s
xZN j?. o;kfJfDe pDso nB{;ko g/gVh jbehnK XksK d/ f;bhe/N
s'I pDh j'Jh j? ns/ w?INb f}nkdkso b'j/ ns/ fwFo XksK d/
f;bhe/N jB. ftfGzB G{-ftfrnkfBeK ns/ G{r'b ftfrnkBhnK fit/
I fe n?vtov ;[n?; (Edward Suess), nkoHJ/H vkbh (R.A.Daly), i?
coh (Jeffrey)ns/ j'w; (Holmes) B/ o;kfJfDe ;zxDsk d/ nkXko #s/
Xosh dh nzdo{Bh ouBk pko/ nB{wkB bkJ/ jB. ;' nkU Xosh dh
nzdo{Bh ouBk d/ ;zxDe pko/ ;[n?; (Suess) d/ ftukoK s'I rb
F[o{ eohJ/L
8
9. Anchor pulls the SUPER:
Constitution of the Earth’s interior according to Suess
Cut to MM 8:
Relevant capsule
VO 8:
Edward Suess has thrown light on the chemical composition of the earth’s
interior. He has identified three zones of different matter below the outer thin
sedimentary cover.
SIAL: it is located just below the outer sedimentary cover. The layer is dominated
by silica and aluminum (SIAL=SI+AL). The average density of this layer is 2.9
whereas its thickness ranges from 50 to 300 km.
SIMA: it is located just below the SIAL layer. This layer is composed of basalt
and is the source of magma and lava during volcanic eruptions. Silica and
magnesium are the dominant constituents. Average density ranges between
2.9 to 4.7 whereas the thickness varies from 1,000 km to 2000 km.
NIFE: it is located just below the SIMA layer. This is the lowermost layers of the
interior earth. This layer is composed of nickel (NI) and ferrium or iron (Fe).
These metals constitute the term NIFE. It is, thus apparent that this layer is made
of heavy metals which are responsible for very high density from 11 to 12. The
thickness of this zone varies from 2900 kilometers to 6880 kilometers.
Cut to ANCHOR 10:
j[D se n;hI fJj ikfDnk fe Xosh dh ;sj s/ e'o ~ tZyohnK
gosK iK fjZf;nK ftZu tzfvnk ik ;edk j? 1940 ftZu
nkoHJ/Hvkb/ B/ Xosh d/ nzdo{Bh fjZ;/ ~ uko gosK ftZu
tzfvnk. nkU fJ; G{-ftfrnkBh d/ fynkbK ~ tkuhJ/.
Anchor pulls the SUPER:
Constitution of the Earth’s interior according to R.A.Daly
Cut to MM 9:
Relevant capsule
VO 9:
(1) Lithosphere: - Daly named the outer zone or the surface of the earth as
Lithosphere. It is rigidly solid and made up of sedimentary rocks with its depth
about 80 kilometers. Average density is 3.0 and the thickness is 1600 km.
(2) Asthenosphere: .It is just below the lithosphere. As per its name, it is
neither too solid nor too hard or rigid. Its average depth is about 360 kilometers.
(3) Mesosphere: Mesosphere is just below the Asthenosphere. It is relatively
more rigid, hard and solid than Asthenosphere. Its depth is about 2400
kilometers.
9
10. (4) Centrosphere: - It starts just below mesosphere and extends up to the
interior core of the earth. It is made of iron and is in solid state. Here the density
of the rocks being the maximum, the Centrosphere gets firm and the rocks
happen to be of crystalline material.
Cut to ANCHOR 11:
Anchor pulls the SUPER:
Constitution of the Earth’s interior according to Harold Jeffrey
j[D n;hI j?o'bv i?coh (Harold Jeffrey) d/ ftukoK tZb Mks
wkohJ/, fi;B/ G{ukbh sozrk d/ nkXko s/ Xosh d/ nzdo{Bh
fjZ;/ ftu uko gosk ~ gSkfDnk. nkU fJ; fuZso okjhI fJ;~
;wMD dk :sB eohJ/.
Cut to MM 10:
VO 10:
(1) Outer Layer:-It is made up of sedimentary rocks.
(2) Second Layer: - It is composed of granite rocks.
(3) Third or intermediate layer: It is made of diorite rocks.
(4) Fourth Layer:-It is made up of peridotite rocks.
Cut to Anchor 13:
fJe j'o gf;ZX G{-ftfrnkBh nkoEo j'w} (Arthur Holmes) B/ Xosh
dh pDso d/ nkXko s/ fJ; d/ nzdo{Bh fjZ;/ dhnK d' tZvhnK
gosk ~ ouBk dk nkXko wzfBnk. nkU fJBQK ~ gSkBD dk :sB
eohJ/.
Cut to MM 11
VO 11:
Crust: the upper layer of earth is termed as crust which is composed of whole of
the SIAL and the upper portion of SIMA.
Substratum: the second layer is termed as substratum. It includes the lower
portion of SIMA.
Cut to ANCHOR 14:
;',n;hI tZyo- tZyo// G{-ftfrnkBhnK iK ftfrnkBhnK d/ Xosh
dh nzdo{Bh ;zouBk ns/ gosk pko/ ftukoK pko/ ikDekoh bJh.
fJBQK ftuko s'I fJj gqshs j[zdk j? fe Xosh dhnK gosk dh
frDsh, w'NkJh ns/ T[;d/ r[DK pko/ wsG/d jB. fJ; confusion
10
11. ekoB T[go fdZs/ ftuko oZd j' iKd/ jB. e[dosh s/ r?o e[dosh
G{ukbh sozrk d/ tZy-tZy gZyK dk ftFb/FD ns/ ftfrnkBe nfXn?
B B/ ftfrnkfBeK ~ Xosh d/ nzdo{Bh fjZ;/ d/ ojZ; ~
y'bQD :'r pDkfJnk j? ns/ Bt/I ftuko fdZs/ jB. G{ukbh sozrK
d/ t/r ftu nkT[Id/ pdbkU d/ nkXko s/ n;hI Xosh d/ nzdo{Bh
Gkr ~ fszB fjZf;nK ftZu tzv ;ed/ jK fiBQK d/ ty'-tZyo/ r[D
jB fJj fjZ;/ jb -g/gVh, w?INb ns/ e'o. nkU fJBQK d/ r[DK ~
y'ihJ/L
Crust
Cut to MM 12:
VO 12:
The upper layer of the earth is known as earth crust. It occupies not much of
the mass. We can further sub-divide the earth's crust in three parts on the basis
of its thickness and composition.
(i) Continental Crust: - As we know that Earth Crust is mostly found in
Continental areas, so its thickness goes up to 70 kilometers. We can have
three layers in it. It is also known as SIAL with the combination of Silicon (SI)
and Aluminum (AL).
The uppermost layer is of Sedimentary Rocks whereas second layer is of
Granite rocks which are just below the sedimentary rocks. Igneous and
Metamorphic rocks are found in this layer. The lower most layer of the Earth
crust i.e. the basic layer is of Basaltic materials. Discontinuity separating the
layers of Granite and Basalt is termed as Conard discontinuity.
(ii) Oceanic Crust: - Thickness of oceanic crust is about 5 to 7 kilometers. It
also has two layers. The upper layer is made up of sedimentary rocks while
the lower layer is composed of Basaltic material. It is called SIMA with the
combination of Silicon (SI) and Magnesium (MA).
(ii) Transitional Crust: - It is present in between Continental and Oceanic parts.
It is mainly present in such continental coastal regions as abounds in coastal
oceans and islands.
The crust is separated from the mantle by a sudden change of density which
shows up a good reflecting plane for earthquake waves. This plane is known as
Mohorovicic discontinuity. The Moho is at an average depth of 35 km under
the continents and a mere 10km below sea level under the oceans and seas.
Cut to Anchor 15:
w?INb g/gVh d/ fBubh gos j?. w?INb ftZu b'jk, w?rBhFhnw s/
e?bFhnw g/gVh s'I fes/ f}nkdk fwbdk j?. fJj f}nkdk row ns/
;zxDh j? feT[Ife Xosh dh rfjokJh Bkb skgwkB ns/ dpk tZX
iKd/ jB. i/ s[bBk eohJ/ sK w?INb ~ T[pb/ nzv/ dh ;/dh dh
11
12. fBnKJh ;wfMnk ik ;edk j?. nkU fJ;d/ bZSDK dk nfXn?B eohJ/
L
MANTLE
Cut MM 13:
VO13:
The depth of mantle is 2900 km inside the earth. On the basis of changes in the
velocities of seismic waves and density mantle is divided into upper mantle from
Moho discontinuity to the depth of 700 km and lower mantle from 700 km to
2900 km depth.
Between the lower mantle and the core lies a further discontinuity at a depth of
2,900 km, at which the density increases from 5.5 to 10g/cm3. This is called
Gutenberg discontinuity as per the name of scientist Weichert Gutenberg. It
helps to separate Mantle and Core. Here S-waves become invisible and
velocity of P waves also decreases.
Cut to Anchor 16:
nzv/ dh }odh s'I jZN e/, Xosh dk e'o d' w[y fjZf;nK dk
pfDnk j'fJnk j?. fJe 2,200 feb'whNo w'Nk sob e'o ns/ 1250
feb'whNo w'Nk m'; e'o. e'o d/ bZSDK ~ tkuD ykso fJ; fuZso
tZb t/y'.
CORE
Cut to MM 14:
VO 14:
The core, the deepest and most inaccessible zone of the earth, extends from the
lower boundary of the mantle at the depth of 2900 km to the center of the earth
up to 6371 km. Core is made of metallic materials mainly iron and nickel. The
core is further divided into two sub-zones such as outer zone and inner or
transitional zone. Let’s classify these two zones according to their depth.
(a) Outer Core: - It extends from 2900 km i.e. Wiechert-Gutenberg discontinuity
to the depth of 5150 km. In other words, keeping in mind the nature of the
seismic waves, it can be said to be in the liquid state but due to high pressure it
should not be taken as mere fluid.
(b) Inner Core: - the inner core extends from the depth of 5150 km to the center
of the earth up to 6371 km. This is the zone of solid state where the density
denotes 13.3 to 13.6.
Cut to Anchor 17:
12
13. So finally we have completed our today’s module-Interior of the Earth. But before
I assess you all I will give a brief recapitulation of the whole content. Let’s see
what we have learnt so far.
Anchor pulls the super,
Summary
Xosh rqfj fszB w[Zy gosk dk pfDnk j'fJnk j?. fJe gsbh
g/gVh, w?INb ns/ e'o. Xosh d/ nzdo{Bh fjZ;/ d[nkb/ gsbh
uNkB ~ g/gVh efjzd/ jB. T[gobh g/gVh i' fe wjKdhgK T[go
j[zdh j?, T[;~ f;n?b(Sial) efjzd/ jB. idfe wjKdhgk dh f;n?b
d/ EZb/ ns/ ;w[zdo dh sbh T[go f;w?( Sima) j[zdh j?. w?INb
dh gos, g/gVh d/ EZb/ j[zdh j?. w?INb dh ;zxDsk g/gVh s'I
pj[s f}nkdk j[zdh j? fi; ekoB fJj G{ukbh sozrk bJh
gfotofss ;sj pD iKdh j?. fJ; ;sj ~ w'jo'ftf;;
Gzrsk(Mohorovicic discontinuity) eoe/ ikfDnk iKdk j?.
Xosh d/ e/Ido ftu e'o j[zdk j? fi; dh xDsk w?INb s'I
d[rDh j[zdh j?. feT[fe fJ; d/ ;zxNB Xks{ (b'jk-fBeb fwFo
Xks{) jB. Xosh dk e'o d' fBFfus fjZf;nK ftZu j?. pkjobk
sob (fgxfbnk) e'o ns/ nzdobk m'; e'o.
Xosh dh nzdo{Bh fjZf;nK dh ;kvh ikDekoh ngos] ftfrnkBe
gqwkDk s/ nkXkfos j?. fi;~ fszB fjZf;nK ftZu tzfvnk ik
;edk j?. @r?o e[dosh ;o's, Xosh dh T[sgsh pko/ f;XKsK
ftu'I gqwkD ns/ e[dosh ;o's fi; soQK fe itkbk w[yh ns/
;hf}wkb'ih. ;hf}wkb'ih jh fJe nfijk ;o's j? i' ;k~ Xosh d/
nzdo d/ ;zxNeK dh mhe o{g ftZu ikDekoh d/Idk j?. G{ukbh
sozrk fszB torK ftZu oZyhnK rJhnK jB, w{b, r"D ns/ ;sjh
sozrk. fJj sozrK xDe pdbkU dh EK s/ ngtofss j' iKdhnK jB
ns/ fJT[I Xosh d/ nzdo N/vk o;sk ngBkT[IdhnK jB. ftfGzB
G{-ftfrnkBh fit/I ;[n?;, vkbh, i?coh ns/ j'bw} B/ Xosh
dhnK gosK dh ouBk pko/ ftuko fdZs/ jB. n?vtov ;[n?; (Edward
Suess) B/ Xosh d/ nzdo dh o;kfJfDe ;zxNBk pko/ ukBDk gkfJnk
j?. nkoHJ/HvkbhH(R A Daly) B/ rfjokJh s/ xDsk d/ nkXko s/
Xosh dhnK uko gosK wzBhnK. G{-ftfrnkBh nkoEo j'bw} (Arthur
Holmes) B/ w[y d' gosk wzBhnk, g/gVh ns/ ;p;Nq/NZw (Crust and
Substratum). G{ukbh sozrk d/ n?fXn?B s'I pknd fJBQK ftukoK ~
13
14. oZd ehsk frnk j? ns/ j[D nk]o ;hf}wkb'ih (Seismology) Xosh dh
nzdo{Bh ikDekoh bJh ;G s'I uzrk ;o's wzBh iKdh j?.
Cut to ANCHOR 18
So we have explored in detail about the inside Earth. Here’s a quick fire round
test for you to find out how much you have learnt. Let’s begin: keep your thinking
caps on!
The format of the questions will be like this —First one question will be put by the
anchor and after a pause of 3-4 secs its answer will also appear on the screen.)
Q1.What has been the most useful method for determining the structure of
the earth's interior?
Core samples
Density studies
Magnetic field
Seismology
Q2. Which layer of the earth's interior has the lowest density?
Continental crust
Inner core
Mantle
Outer core
Q3. Which layer of the earth's interior has the highest density?
Continental crust
Inner core
Mantle
Outer core
Q4. What portion of the earth's volume is occupied by the mantle?
20%
50%
65%
80%
Q5.
What is the lithosphere composed of?
The continental and oceanic crust
The crust and uppermost mantle
The lower mantle and outer core
The upper mantle
Q6
What property distinguishes the earth's crust, mantle, and core?
Composition
14
15. Pressure
State (solid vs. liquid)
Temperature
Q7. The Gutenberg discontinuity lies at the boundary of which two layers?
Crust and mantle
Crust and outer core
Mantle and inner core
Mantle and outer core
Q8. The Mohorovicic discontinuity lies at the boundary of which two
layers?
Crust and mantle
Crust and outer core
Mantle and outer core
Outer core and inner core
Q9. The shock waves produced by an earthquake are called __?__
A. seismic waves
B. sonar waves
C. laser waves
D. radiowaves
10. What is the approximate distance from the surface to the center of the Earth?
A. 700 km
B. 2900 km
C. 6400 km
D. 10,000 km
Q10. What type of seismic wave is being recorded by the seismograph in the
diagram?
A. P wave
B. an S wave
C. surface wave
D. All of the Above
15
16. Q11. Which region in the Earth consists primarily of solid iron?
A. region A
B. region B
C. region C
D. region D
E.
Q12. Which layer in the Earth does not transmit S-waves?
A. the crust
B. the mantle
C. the inner core
D. the outer core
Q13. The crust of the earth is made mostly of
A. oxygen & silicon
B. iron & silicon
C. iron & nickel
D. copper & nickel
Cut to Anchor 19:
I am confident that you have all scored well. I hope you enjoyed the lesson as
much as I did and are looking forward to the next class. Thank you for your
attention and see you next time.
16