Review sheet for Midterm Examination (to be given 5 March)
GEL/ESC 1300G

The midterm examination will consist of 40-50 questions to be answered during the 50 minutes of class on 5 March.  The questions will be short answer, fill in the blank, label the diagram, or draw a diagram.  The examination is worth 100 points.  The examination is cumulative, but will emphasize material coverd since the last quiz.  We will have informal reviews on Thursday (3/4) evening starting at 5:30 PM in room 3120.  Wednesday (3/3) we will have a review in class for the midterm.  The Geoscience Club is also having their tutoring sessions on Mondays and Thursdays from 8:00 - 9:00 PM in room 1060.  Remember that I may draw questions from previous quizzes.

Key terms (these are from the first lecture to now):

1/16 mm 2 mm 3.8 Ga 4.6 Ga
aa abrasion aeolian Al2O3
amphibole amphibolite andesite angular
animal track anticline antiform antiformal syncline
apatite aphanitic texture arenite arkose
asymmetric augen aureole basalt
basin batholith bedding plane bedload
biochemical biotite Bowen's Reaction Series breccia
brittle C CaCO3 CaF2
calcite caldera Cambrian Ca-rich feldspar
CaSO4-2H2O cementation Cenozoic chemical sedimentary rock
chemical weathering chert cinder cone clastic
cleavage climate ClORPT coal
columnar joint compaction composite cone compression
concordant confining pressure conglomerate contact
continental drift continuous reaction series convergent boundary coquina
core corundum covalent bond Cretaceous
cross beds cross-bedding cross-section crust
debris flow detrital sedimentary rock Devonian diamond
differentiated dike diorite directed pressure
discharge discontinuous reaction series discordant dissolution
dissolved load divergent boundary dolomite dolomitization
dolostone dome dynamothermal earthflow
eclogite elastic element exfoliation
extrusive facies felsic fissile
fissure flood basalt fluorite fluvial
foliated fracture frost wedging glassy
gneiss graded bedding granite graphite
greywacke groundmass gypsum halite
hardness heterogeneous homogeneous hornfels
hot spot hydrogen bond hydrolysis hydrothermal
igneous rock inner core intrusive ionic bond
iron catastrophe Jurassic KAlSi3O8 komatiite
K-rich feldspar laccolith lacustrine lahar
laminated lava lava dome lava plateau
lava tube limestone lineation lithification
lithosphere lithostatic pressure luster mafic
magma mantle map view marble
matrix mechanical weathering Mesozoic metallic
metallic bond metamorphic metasomatism mica
migmatite mineral Mississippian Mohs Hardness Scale
mudcrack muscovite Na-rich feldspar neutron
nonclastic non-foliated non-metallic obsidian
olivine Ordovician organic material orthoclase
oscillatory outer core pahoehoe Paleozoic
Pangea parasitic cone parent material pearly
pegmatite Pennsylvanian pericline peridotite
Permian phaneritic phenocryst phyllite
pillow lava plastic plate plate tectonics
plunge plunging anticline plunging syncline pluton
plutonic polymorph porphyritic potassium feldspar
Principle of cross-cutting relationships Principle of superposition Principle of uniformitarianism protolith
proton pumice pyroclastic flow pyroxene
quaquaversal fold quartz Quaternary raindrop
recrystallization regional relief rhyolite
rift ripple mark rock rock gypsum
rock salt rounded rupture point sabkha
saltation schist scoria seafloor spreading
sedimentary rock shale shear shield volcano
sill Silurian SiO2 slate
sorting spheroidal weathering spreading center stock
strain stratocone streak stress
strike and dip strike-slip fault subduction zone symmetric
syncline synform synformal anticline talc
temperature tension Tertiary topaz
traction trench Triassic tuff
ultramafic van der Waals bond vent vesicle
viscosity vitreous volcanic hazard volcanic neck
Walther's Law of Facies Wegener xenolith yield point

Practice questions/concepts:

  1. Understand what a protolith is and what the protolith would be for various metamorphic rocks.
  2. Know your geologic time scale - the order and the dates.
  3. Understand the various unconformities.
  4. Explain the differences between the formation of foliated and non-foliated rocks.
  5. Know some of the different foliated and non-foliated rocks.
  6. Be able to place a series of metamorphic rocks in their correct order of increasing/decreasing metamorphic grade.
  7. Understand the difference between relative and absolute age dating.
  8. Know the various metamorphic facies and under what conditions they form and where they might be found geologically.
  9. Know the different types of metamorphism.
  10. Describe the various types of folds - anticline, antiform, syncline, synform, monocline, basin, dome, etc.
  11. Be able to explain stress and strain and the structural implications.
  12. Identify the various types of stress.

  13. The list of terms above may not be comprehensive.