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Global Geophysics

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Global Geophysics Lecture part Rocco Malservisi roccom_at_lmu.de Phone: 2180 4201 ... Magnetic and gravity anomalies and topo/bathymetry M ller et al. 2006 GGM01S, ... – PowerPoint PPT presentation

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Title: Global Geophysics


1
Global Geophysics
  • Lecture part
  • Rocco Malservisi
  • roccom_at_lmu.de
  • Phone 2180 4201

2
NASA photo from Apollo 17
3
  • Is it really a sphere?
  • Is it an ellipsoid?
  • Is it flat?
  • The shape of our system depend on the problem we
    want to study and the required precision!!

4
  • How big is the planet?
  • By definition 40000 km!!
  • 1m1/4e6 length of a meridian.
  • Or 60x360 nautical miles (21600 nm).

5
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6
  • How big is the planet?
  • By definition 40000 km!!
  • The first one to measure it correctly
    Erstosthenes measuring the distance from
    Alexandria and Syene (5000 stadia) and the angles
    in figure, he computed a circumference of 250000
    stadia 39300km

From Marshak, 2005
7
  • How big is the planet?
  • By definition 40000 km!!
  • Today we say that the radius of the Spherical
    Earth equivalent to the volume of the planet is
  • 6371 km
  • We also know that an ellipsoid is a better
    approximation
  • Eq radius 6378 km
  • Pol Radius 6356 km
  • Flattening 1/298

From Marshak, 2005
8
  • We are attracted to it and there is gravity

http//www.jadetower.org/muses/wlsimages/gravity-n
ewton.jpg
9
  • We are attracted to it and there is gravity
  • And if we look at the satellite it is falling in
    to the Earth attracted by a force that is
    proportional to the mass of the planet.
  • From the orbit parameter we can compute the mass

http//www.jadetower.org/muses/wlsimages/gravity-n
ewton.jpg
10
  • Well even from the ground if we know the constant
    G and our distance from the center of the Earth
    we can measure the gravity acceleration thus the
    mass of the Earth (ex a pendulum)
  • MgR2/G
  • g9.8ms-2
  • G6.67e-11 m3kg-1s-2
  • R6371km
  • M6e24 kg

http//www.jadetower.org/muses/wlsimages/gravity-n
ewton.jpg
11
  • So can we say something about the interior of the
    planet?
  • what is the average density?
  • Mass 6e24 kg
  • Volume ?

12
  • So what is the average density?
  • Mass 6e24 kg
  • Volume4/3pR3
  • 1.08e21 m3
  • So its density is
  • 5500 kg m-3
  • Density of surface rocks?

13
  • So what is the average density?
  • Mass 6e24 kg
  • Volume4/3pR3
  • 1.08e21 m3
  • So its density is
  • 5500 kg m-3
  • Density of surface rocks?
  • 1.5-3.5 g/cc
  • Density Iron 7g/cc

14
http//earthguide.ucsd.edu/mar/dec5/earth.html
15
  • Which shape has the planet?
  • What can we see (colors)?
  • What can we measure?

16
  • We have a magnetic field that it is very similar
    to the one of a dipole.
  • Well in reality this is true close to the surface
    if we go far away enough it looks more complex

Magnetopause 10Re Moon 60Re
17
Variation of Magnetic field on oceans
Looking for subs the British and Americans
developed a map of Magnetic anomalies of the sea
floor, in 1961 Harry Hess explained It using
seafloor spreading theory.
18
Müller et al. 2006
Magnetic and gravity anomalies and
topo/bathymetry
GGM01S, GRACE mission www.csr.utexas.edu/grace/gra
vity/
19
Lets try to look more in details the brownish
regions
Some area are flat and some are rough
Some areas look like if someone enjoyed to fold it
Some area are more brownish then other
20
Lets try to look more in details the gravity
What does influence this variation of gravity
field?
21
  • So as first approximation the Earth is a planet
    that looks like a sphere with a density higher
    than we would expect looking only at the surface,
    with regions of different colors at the surface
    and able to generate a dipolar magnetic field.
    That does not appear to be constant.

22
So it does not look any longer as an homogeneous
sphere!! On second approximation it is an
ellipsoid 6357 km (polar) 6378 km
(equatorial) And it looks like if some processes
are shaping the brownish regions. We will spend
the rest of the semester to look at these
processes and to figure out how we can observe
them
23
PLATE TECTONICS
Plate Tectonic is a theory that unify different
previous geological theories (CONTINENTAL DRIFT
and OCEAN SPREADING) and that can explain the
majority of the solid earth system
observations. Basic concept The outermost
layer (LITHOSPHERE) is divided in a small number
of rigid plates in relative motion one respect
to the other and that are moving on a weak
ASTHENOSPHERE
24
PLATE TECTONICS
  • Basic concept
  • The outermost layer (LITHOSPHERE) is divided in a
    small number of rigid plates in relative motion
    one respect to the other and that are moving on a
    weak ASTHENOSPHERE
  • Basic Assumptions
  • The astenosphere viscosity is low enough to allow
    on long time scale for viscous flow
  • The generation of new plate material occurs by
    sea floor spreading
  • The new oceanic lithosphere form part of a rigid
    plate that may or may not include continental
    material
  • Earths surface area remains constant this means
    that seafloor spreading must be balanced by
    consumption of plate elsewhere
  • Lithospheric plate are capable of transmitting
    stress over great horizontal scale. In other
    words plates are rigid and the deformation is
    concentrated along the boundaries.
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