week 7
Earth Differentiation
denser materials sink lighter materials rise - core, mantle, crust, hydrosphere, atmosphere
6371 km
earth's radius is how deep?
Major elements in the earth
iron, oxygen, silicon, magnesium
mantle rock
is the density higher for mantle rock or crustal rock?
seismicity
occurrence of earthquakes in space and time
Earth's interior, not the liquid
s wave paths go through what?
1) time of an earthquake 2) distance from epicenter 3) Richter magnitude of the quake.(as well as information about the interior of the Earth)Amplitude
seismographs are used for...
core-mantle boundary
sharp increase in density, but also sharp decrease in rigidity
Love wave
side-to-side shear motion
earthquake
sudden motion in the Earth caused by abrupt release of accumulated strain energy along a fault plane
earthquake epicenter
the point on Earth's surface directly above the focus
seismology
The study of earthquake waves and the deep interior of Earth
surface and body waves
types of seismic waves?
Mantle Tomography
uses seismic waves to study temperature variations in the mantle based on velocities of seismic waves
Creep Motion
- less dangerous - does not generate a lot of energy or large earthquakes
P waves
- Primary waves - fastest - push/pull motion - travel through solid and liquid
surface waves
- Travel along Earth's surface - Cause most of the damage associated with earthquakes - Do not penetrate the interior - motion restricted to shape of earth
thermal convection
- Warm, less-dense material rises; cooler, denser material sinks. - Hot material is transferred from the interior toward the exterior of the planet. - Segregates material by density
CT Scans
- computed tomography = CT - non-invasive imaging
compositional convection
- light material rises; heavy material sinks - convection in outer core affects growth of inner core
S waves
- secondary waves - slower than P - shearing motion - only travel through solids
body waves
- travel through Earth's interior - two main types: primary (P) and secondary (S)
crust
10-70 km thick Ca, Al, Si, O
inner core
1500 km thick solid iron
outer core
2200 km thick liquid iron
mantle
2800 km thick Mg, Fe, Si, O
main components of rocks in crust
Si, Al, Ca, O
main components of rocks in mantle
Si, Mg, Fe, O
earthquake cycle
The concept that there is a periodic quality about the occurrence of major earthquakes on a given fault zone, with repeated cycles of stress buildup, rupture, and relaxation of stress through smaller aftershocks - not periodic or predictable - stick-slip motion
earthquake focus
The location where the earthquake begins
Elastic Rebound Theory
The theory that continuing stress along a fault results in a buildup of elastic energy in the rocks, which is abruptly released when an earthquake occurs.
Rayleigh wave
goes up and down AND forward - rolling motion - eliptical like
The longer the P-S time gap, the greater the distance between the seismograph and the epicenter
how is the epicenter of an earthquake determined?
plate tectonics
interior structure and convection of the solid mantle is responsible for...?
fault traces
lines that indicate the point where a fault intersects the ground surface
moon materials
made out of iron and lighter matter
fault
planar fracture along which displacement (offset) has occurred
geothermal gradient
rate of change of temperature with depth
path; speed
the actual ______ taken by seismic waves is not straight and the _______ at which they travel is not constant
12 km
the deepest drill is how deep?
3.8 km
the earth's deepest mine is how deep?
solid
the mantle convects even though it is...?
circulation in the earth's interior
thermal convection compositional convection
seismic ray
traces the path of a single point along the wave front and is always perpendicular to the wave front
seismology
we can study earth's interior directly using...?
the abrupt release of energy stored along faults by the build-up of stress
what are earthquakes caused by?
Our atmosphere from solar wind, records plate tectonic motion
what does the magnetic field from the core protect?
a liquid outer core
what does the s wave shadow zone provide evidence for
Hayward fault
what fault runs through Cal's football field
pressure, temperature, and density
what increases toward the center of the earth?
abruptly at boundaries where the rigidity of materials changes - such as the core-mantle boundary
when and where do seismic velocities change?
velocity - mantle rock has higher density than crustal rock; also has higher velocity
when density is higher, what else has to be higher?
extreme pressure and temperature depth
why can't we sample the deep earth?
The velocity that P and S waves travel depends on the density and rigidity of the material they are traveling through
why do waves get refracted?
