Geology Exam #2 Earthquakes and Minerals
The modified Mercalli intensity scale measures
the amount of destruction caused by an earthquake
An earthquake's Richter magnitude is based on
the amount of ground movement caused by seismic waves
What does the elastic rebound theory describe?
the build-up and release of strain energy during an earthquake
What is true of neutral atoms?
the number of electrons must equal the number of protons
Atomic Number
the number of protons in any atom, fixed
Isotopes of a given element have
the same number of protons but different atomic masses
How many seismograph stations are needed to locate the epicenter of an earthquake?
three
Why did Richter develop the Richter Magnitude scale?
to compare the sizes of local earthquakes her in Southern California (Local Magnitude Scale)
Magnitude
total amount of strain energy released by an earthquake
As a rule of thumb aftershocks are typically ____ order(s) of magnitude ____ than the mainshock.
1; lower
What happens if you change the pattern of atoms in a mineral?
You change what the mineral is
What is the difference between a magnitude 8.0 & 1.0?
The length of the fault break
Scientists cannot accurately predict earthquakes
Which of the following statements best describes the current state of earthquake prediction?
As we go deeper in Earth and the pressure grows we encounter minerals with
more compact crystal structures
Minerals
any naturally occurring, inorganic, solid chemical compound, with a more or less fixed chemical composition, is homogeneous in its chemical and physical properties, and has a regular arrangement of its constituent atoms
Isotopes
atoms of the same element that have different number of neutrons
Which of the following measurements collected from seismograph stations gives scientists information regarding the type of faulting that occurred during an earthquake?
the first motion of the P waves
Which of the following substances is not considered a mineral?
coal
Framework Silicates
complex 3-dimensional networks of silica tetrahedra ex. Quartz ex. Feldspar (Plagioclase & Orthoclase) (most common crustal mineral) Si:O Ratio = 1:2
Reverse faults form in response to ______ forces.
compressive
What is the strongest type of bonding found in minerals?
covalent bonding
Strike-slip fault motion
motion along fault is generally in a horizontal (side-to-side) motion
Strike-slip Fault
motion along fault is generally in a horizontal (side-to-side) motion at transform plate boundaries (ex. San Andreas fault)
Dip-slip fault motion
motion along the fault is generally in a vertical term-92 (up-dowterm-1n) direction
Isotopes of an element have different numbers of
neutrons
What is an ion?
any formed atom
Amplitude
Height of the highest wave recorded above baseline in millimeters
Which of the following types of seismic waves arrive at a seismograph first?
P waves
Which of the following correctly lists the order in which seismic waves arrive at a seismograph station?
P waves, S waves, surface waves
Best we can do is long term forecasting based on
Paleoseismic (ancient earthquake) record
What mineral makes up most of the mantle?
Perovskite
_________ is the most common mineral or mineral group in the Earth as a whole.
Perovskite
Hypocenter
Point where fault break starts; Location of an earthquake
Graphite and Diamond are carbon atoms that are considered what?
Polymorphs
What are atoms composed of?
Protons (+), neutrons (neutral), electrons (-)
Which of the following minerals is a framework silicate?
Quartz, orthoclase feldspar, and plagioclase feldspar
Thrust Fault
Reverse fault with a dip-angle less than 45º
Joint
Scientific term for a crack along which no movement has occurred
Foreshock
Smaller earthquakes prior to mainshock
Aftershock
Smaller earthquakes that follow mainshock
Epicenter
Spot on surface directly above hypocenter
Where are electrons located?
Surround the nucleus
right-lateral strike-slip
The San Andreas fault is what type of fault
oxygen and silicon
The two most common elements in Earth's crust are
Which of the following is not a dip-slip fault?
a right-lateral fault
Which of the following types of seismic waves are the slowest?
surface waves
A fault line long-term slip rate of 5 cm/year and slips 2.5 m when it moves. What is the recurrence interval of the fault?
50 years
Fault and how it produces earthquakes
- 2 sides of fault try to move past one another due to tectonics - 2 sides get stuck because of friction - Pressure or strain energy builds along fault and accumulates - That energy is released in the from of Seismic waves
Method to determine the location (Hypocenter)
- Count, in seconds, the time difference between arrival of 1st P & S wave - Multiply by 10 - Gives difference to hypocenter - in km
Modified Mercalli Scale of Intensity
- How much damage caused by an earthquake and how people react. - Rates intensity from I to XII - I = No damage; not felt - XII = Total destruction
Normal Fault
Hanging wall down foot wall up. Generate small to moderate sized earthquakes.....Extend the earths lithosphere at divergent plate boundaries
What are the factors that affect intensity?
- distance away from the epicenter, - depth of the earthquake - population density of the area - local geology of the area - type of building construction in the area - duration of the shaking
What is true of the bonding process?
- through the bonding process atoms gain or lose electrons - minerals form - due to the bonding process there are approx. 4,000 known minerals on planet earth - divide these into just a few groups based on what the Anionic molecule is
What will be the charge of an atom containing eight protons, nine neutrons, and 10 electrons?
-2
Sodium has an atomic number of 11. How many electrons will the sodium ion Na+ have?
10
The ground motion during a Richter magnitude 8 earthquake is ______ times greater than the ground motion during a Richter magnitude 6 earthquake.
100
What is the estimated recurrence interval for a fault line that has a slip rate of 3 cm/year and slips 3 m every time it moves?
100 years
The energy released during a magnitude 8 earthquake is approximately ______ times larger than the energy released during a magnitude 6 earthquake.
1000
In southern California, great earthquakes occur on the San Andreas approximately every ______ years.
150 to 300
Method to determine the magnitude of an earthquake was first developed in ________ by ________?
1930's; Charles Richter
Why did we switch to the Moment Magnitude Scale?
1970's they realized the Richter scale tends to underestimate the size of big earthquakes
Following a mainshock of magnitude 6 one could expect aftershocks as strong as
5
A fault line has recurrence interval of 100 years and a long-term slip rate of 5 cm/year. How much does the fault slip when it ruptures?
5 m
Alpha Decay
A helium atom is ejected from the nucleus
Dip angle
Angle between Earth's surface, or a plane parallel to Earth's surface, and fault
,the time between the arrival of the P and S waves increases
As the distance to an earthquake increases
Anions
Atoms that gain electrons (become negatively charged)
Cations
Atoms that lose electrons (become positively charged)
Types of Seismic waves
Body waves: - Primary (P) waves - Fastest - Secondary (S) waves - 2nd Fastest Surface waves: (cause most damage) - Love waves (L-waves) - Slowest - Rayleigh Waves
Reverse Fault
Hanging wall up foot wall down. Generate large earthquakes.....Shortens or compress lithosphere at convergent plate boundaries
Elastic Rebound Theory
Build up and release of stress during an earthquake
Who developed the procedure used to measure the size of an earthquake?
Charles Richter
_________ and __________ are examples of polymorphs.
Diamond; graphite
From seismograph recordings we can determine
Earthquake size, location, and fault type
Beta Decay
Electron is ejected out of the neutron changes into a proton
Focus
Entire section of fault that breaks
Fault Scarp
Exposed surface of the fault
_________ is the most common mineral or mineral group in Earth's crust.
Feldspar
Richter Scale conversions
For each magnitude increase of 1.0 on Richter scale, the ground motion increases by 10x For each magnitude increase of 1.0 on Richter scale, the energy increases by aprox. 32x
Where are protons and neutrons located?
In the nucleus
Basic unit of energy for the Moment Magnitude Scale?
Joule (better measure of the total energy released by an earthquake
Mainshock
Largest earthquake in a sequence. Not all mainshocks have foreshocks - We don't know what the mainshock is until after the sequence ends (may be separated by years)
What is Mercalli Intensity controlled by?
Location, opinion, and construction
Moment Magnitude Scale
Moment magnitude measures the size of events in terms of how much energy is released
Can we predict (size, location, time) of earthquakes?
No
Do small earthquakes reduce the probability of a larger one occurring along a fault?
No
Baseline
No seismic activity on a seismograph, no earthquake
Most abundant elements in Earth's crust?
Oxygen 46.6% and Silicon 27.7% and Aluminum 8.1% . They bond to form approx. 95% of all minerals that make-up the crust. These are called SILICATE MINERALS
"Blind" Thrust Fault
Thrust fault that does NOT break through to the Earth's surface
Seismograph
Used to detect and record arrival of different seismic waves. They measure ground motion
Seismographs can tell you what relative to faults?
Which way the fault moves based on the 1st motion of the P-wave - If first motion is up, that is a compressional or towards motion - If first motion is down, that is an extensional (dilation) or away motion
Silicate minerals all have what?
a basic building block called Silica Tetrahedron (1 silicon atom bonded to 4 oxygen atoms)
What is a thrust fault?
a low-angle reverse fault
What type of fault is characterized by the rocks above the fault plane moving downward, relative to the rocks below the fault plane?
a normal fault
Atomic Mass Number
equal to the number of protons plus the number of neutrons in that atom, this varies
Double Chain Silicates
ex. Amphibole Si:O Ratio = 2:5.5
Single Chain Silicates
ex. Pyroxene Si:O Ratio = 1:3
At what point do we assign a series of earthquakes their categories (i.e., mainshock, foreshock, or aftershock)?
following the aftershocks
Solid materials that do not possess an orderly arrangement of atoms are called
glasses
When are atoms only truly stable?
if the number of electrons is equal to one of those of the noble gases
Rocks that form from the solidification of molten rock are called
igneous
How are the elements organized in the periodic table?
in order of increasing number of protons
Island Silicates
individual silica tetrahedra bonded to cations ex. Olivine Si:O Ratio = 1:4
What is the most common type of bonding in minerals?
ionic bonding
What is the term for atoms of the same element that have different numbers of neutrons?
isotopes
The silica tetrahedra readily bonds with cations when available because
it has net negative charge
In order to make a sodium (Na) chlorine (Cl) bond in NaCl,
one electron is transferred from the sodium atom to the chlorine atom.
Chemical substances that have exactly the same chemical formula but different crystal structures are called
polymorphs
Which of the subatomic particles has a positive charge?
proton
The atomic mass of an element is equal to the number of
protons plus neutrons
The average time between large earthquake events along a fault is known as the ______ interval.
recurrence
The difference between a fault and a joint is that
rocks on either side of a fault have moved, whereas rocks on either side of a joint have remained stationary.
The size of an earthquake can be related to fault
rupture area
Energy waves that are released during an earthquake are called
seismic waves
Mica is a common example of a ________ silicate.
sheet
Hanging wall
side above the fault
Footwall
side below the fault
Layer (sheet) Silicates
silicate tetrahedra arranged into infinite 2-dimensional sheets ex. Micas (Biotite & Muscotite) Si:O Ratio = 2:5
The most common rock-forming minerals in the crust are
silicates
Carbon has an atomic number of 6 and an atomic mass of 12. This means that carbon atoms have
six protons and six neutrons
Atom
smallest particle of matter that still retains the characteristics of an atom
What does the symbol Na+ represent?
sodium cation
Mineraloids
substances that have all the properties of a mineral but lack a regular atomic structure
Polymorphs
substances that have the same chemical composition but different structures
What type of seismic wave causes the most building damage?
surface waves
Earthquakes
what you feel during an earthquake are seismic waves as they pass through the Earth. Generated by motion along faults. Any break in the earth's lithosphere (regardless of size) along which movement has occurred. Caused by PLATE TECTONICS
