Final

Question 1

relative dating

Answer 1

sequence of geologic events in a region

Question 2

Law of superposition

Answer 2

older layer is on bottom; Works best for sedimentary rocks

Question 3

Principle of original horizontality

Answer 3

sediments are originally deposited as horizontal beds; Use for tilted/bent layers

Question 4

What causes rocks to bend?

Answer 4

plate collisions or temperature

Question 5

Folding happens after…

Answer 5

rocks were deposited

Question 6

Law of cross cutting

Answer 6

An igneous intrusion/fault is younger than the rock layers that it cuts across

Question 7

Law of inclusions

Answer 7

The inclusion is older than the rock it is in

Question 8

Angular unconformities

Answer 8

folding

Question 9

nonconformity

Answer 9

younger sedimentary rock on top of older igneous rocks

Question 10

disconformity

Answer 10

missing sedimentary rock layers

Question 11

How MI basin formed?

Answer 11

Deposited as Sea dried up; Forms circular patterns; oldest rocks on edges of basin

Question 12

Relative dating

Answer 12

a sequence of geologic events

Question 13

Absolute

Answer 13

the exact age of a rock

Question 14

Radiometric dating

Answer 14

divide parent isotope by 2 until reach amount left; count # times you divided by 2

Question 15

Divergent

Answer 15

moving apart; Mid-ocean ridge; Tensional stress

Question 16

Example of Divergent boundary

Answer 16

Mid-ocean ridge; East African Rift

Question 17

Convergent

Answer 17

Moving together; Compressional Stress; Trenches

Question 18

ocean-ocean convergence

Answer 18

Formes deepest trenches; Volcanoes form on ocean floor off continental coast; Island Archs + earthquakes; Andesite

Question 19

Ocean-Ocean example

Answer 19

Japan; Caribbean Islands

Question 20

Ocean-Continental Convergence

Answer 20

Trenches (not as deep); ocean subducts b/c more dense; Composite volcanoes; Pumice + rhyolite

Question 21

Examples of Ocean-COntinental

Answer 21

Mt. St. Helens; Rings of Fire

Question 22

Transform

Answer 22

Plates sliding past each other; Shearing stress; Shallow earthquakes

Question 23

Example of transform

Answer 23

San Andreas Fault

Question 24

How do plates move?

Answer 24

Convection currents + slab/pull

Question 25

Convection currents

Answer 25

Hot magma rises and cold magama sinks creating a current

Question 26

Slab pull

Answer 26

Plates pull themselves down at subductive zones due to gravity

Question 27

How did Wegner change science of geology?

Answer 27

Continental Drift theory

Question 28

How do magnetic reversals support plate tectonics?

Answer 28

Zebra stripes on ocean floor had to form together

Question 29

Formation of Himalayas

Answer 29

Convergence of Australian-Indian plate w/ Eurasian palte

Question 30

San Andreas Fault

Answer 30

Transform fault between North American and Pacific Plate

Question 31

Andes mountains

Answer 31

Convergent of nazca and South American plates

Question 32

Mt. St Helens

Answer 32

Convergent of Juan De Fuca and North American plates

Question 33

Mid Atlantic Ridge

Answer 33

Divergent of North American and Eurasian plates

Question 34

Red Sea

Answer 34

Divergent of Arabia and African plates

Question 35

Mariana Trench

Answer 35

Ocean-Ocean Convergence of Pacific and Phillipine Plates

Question 36

Iceland

Answer 36

Ocean Divergent of North American and Eurasian Plates

Question 37

How a spit formed…

Answer 37

Ridges of sand tht extends into mouth of an adjacent bay; Created by longshore currents + beach drift; Depositional

Question 38

How tombolo formed…

Answer 38

Ridge of sand that conects an island to the mainland; Created by longshore currents; Depositional

Question 39

How baymouth bar formed…

Answer 39

Sandbar that corsses a bay; Sections off bay from open ocean; Depositional

Question 40

Sea arch

Answer 40

when sides of headlands are attacks by wave refraction; Erosional

Question 41

Wave cut platfrom

Answer 41

Created from cutting action of surf against rock of coastal land, gradually over hanging rocks erosed; Erosional

Question 42

Emergent coast

Answer 42

Developed due to an area experiences uplift or result of drop in sea level

Question 43

Submergent shorline

Answer 43

created when sea level rises or land adjacent to land subsides underwater

Question 44

Longshore current

Answer 44

Pushes the sand

Question 45

Ocean sand

Answer 45

Well rounded, well sorted, and usually mainly quartz

Question 46

Desert sand

Answer 46

angular

Question 47

Great Lakes sand

Answer 47

Variety of minerals because glaciers

Question 48

Problems with groins

Answer 48

current erodes sand from beach on leeward side of groin

Question 49

Problem with seawalls

Answer 49

seaward side of beach experience significant erosion; Eventually wall falls due to reduced width of beach and increased pounding of water

Question 50

pacific Coastlines

Answer 50

rocksy, tectonically active, beach sand supply from rivers

Question 51

Atlantic coastlines

Answer 51

subject to hurricans, has barrier islands

Question 52

Barrier islands

Answer 52

sand deposits

Question 53

How Morains formed

Answer 53

depsoited along edge of glacier dueing melting

Question 54

sediment of morians

Answer 54

till

Question 55

Esker

Answer 55

Curving ridges of stratified drift; deposited by melt water streams;

Question 56

Sediment of esker

Answer 56

outwash

Question 57

Kame formation

Answer 57

depsoited at end of meltwater streams (delta); Mined for gravel

Question 58

Kame sediment

Answer 58

outwash

Question 59

Kettle lake formation

Answer 59

made from ice blocks

Question 60

Kettle lake sediment

Answer 60

till

Question 61

Outwash plain formation

Answer 61

lake meltwater; Formed next to moraines

Question 62

Drumlin formation

Answer 62

Hills of sediment deposited by glacier

Question 63

Drumlin sediment

Answer 63

till

Question 64

How glaciers formed Great Lakes

Answer 64

1. each of Great Lakes started as rivers; 2. glaciers carved v-shaped valleys into u-shaped valleys as climate cooled; 3. As climate warmed; glaviers began to melt and retreat; 4. freshwayer from melting glaciers filled in u-shaped valleys

Question 65

Oldest GL

Answer 65

Erie

Question 66

Youngest GL

Answer 66

Supieriour

Question 67

3 pieves of evidence to support glaciers in MI

Answer 67

1. MI covered in till; 2. Morain deposits follow outline of GL; 3. Erratics; 4. Striations/grooves

Question 68

Plesiocene glaciers (When/Where)

Answer 68

2 mya; As far as Ohio/Illinois

Question 69

Till

Answer 69

unsorted, deposited by ice

Question 70

Outwash

Answer 70

meltwater

Question 71

Cirques

Answer 71

bowl shaped depression located where glacier begins to form

Question 72

Fjord

Answer 72

long, deep narrow salt water valley; Glaciers carved u-shaped valley

Question 73

Horn

Answer 73

a pointedrock peak left at top of mtn

Question 74

Arete

Answer 74

spins/ridges of rock that seperate glacial valleys

Question 75

Isostatic rebound

Answer 75

land uplifts, once the weight of glacier is taken off to original elevation

Question 76

Eccentricity

Answer 76

Variations in shape of Erath’s orbit about the Sun

Question 77

Obliquity

Answer 77

Changes in the angle that the axis makes with the plane of Earth’s orbit

Question 78

Precession

Answer 78

The wobbling of Earth’s axis

Question 79

Bedload

Answer 79

along bottom; Most erosive

Question 80

Suspension load

Answer 80

silt/clay; Make water cloudy; Gives water color

Question 81

Dissolved load

Answer 81

dissolved minerals/pollutants in solution; Creates foam

Question 82

Early stream

Answer 82

Deep; high gradient (steep); High downcutting (v-shaped valley); High velocity (rapids, waterfalls); Narrow; Lots of eroision; Low deposition; Low sidecutting

Question 83

Late stream

Answer 83

Shallow; Low gradient (flat); Low downcutting (flat); Low velocity; Wide; Differential erosion (low); lots of deposition (large deltas); High sidecutting

Question 84

Flood plains

Answer 84

Sand/gravels originally as Point Bar by meanders, shifting laterally across valley floor

Question 85

levees

Answer 85

Successive flooding over years; Increase in elevation

Question 86

deltas

Answer 86

Due to drop in velocity as stream enters still water

Question 87

oxbow lakes

Answer 87

due to buildup. plugs with silt and clay

Question 88

point bars

Answer 88

deposited that occurs inside “point” of the bend as water travels around bend

Question 89

Undercut slope

Answer 89

Cut bank; water hitting the meander, loosens the material, which travels downstream which is then deposited on point bar

Question 90

Yazoo streams

Answer 90

due to flooding on floodpain and runs parallel to river

Question 91

V shaped valleys

Answer 91

forms by downcutting

Question 92

Stream Gradient

Answer 92

Rise/ Run

Question 93

Rule of V’s

Answer 93

opposite direction of v’s is direction of stream flow

Question 94

Base Level

Answer 94

The lowest point a stream can erode its channel to; The way it flows

Question 95

Flowing Artesian Well

Answer 95

Water must be confined between impermeable layers; Must be below recharge zone/ water table

Question 96

Nonflowing water table

Answer 96

located where the pressure surface is below ground level

Question 97

Zone of aeration

Answer 97

above water table

Question 98

Zone of saturation

Answer 98

below water table

Question 99

Best place to bury toxic waste

Answer 99

Sand

Question 100

Hardwater

Answer 100

Ca + Mg ions from Limestone; Leaves sa white film, scale in hot water; no suds

Question 101

Calculate permeability

Answer 101

ML/SEC

Question 102

Low permeablity rock

Answer 102

Clay

Question 103

High permeability rock

Answer 103

Gravel

Question 104

How a septic tank works

Answer 104

Bacteria and filters allow for liquid to move through but not effluent, and solids settle out; Sand filters out solid in effluent; Clean water returns to water table

Question 105

Caves

Answer 105

Dissolution of Limestone; Lowering of water table

Question 106

Sinkholes

Answer 106

bedrock erodes which causes overburden to fall and then soil faills as well

Question 107

Subsidence

Answer 107

Slow sinking of ground due to groundwater withdrawl

Question 108

karst topography

Answer 108

acid water dissolves Limeston; Series of Sinkholes

Question 109

lead

Answer 109

Sources from pipes; causes brain damage

Question 110

Aresenic

Answer 110

Source: naturally in shale/SS and pesticieds; Problems: aresenocosis and cancer

Question 111

Flint water crisis

Answer 111

Found high levels of lead, iron, and bacteria in drinking water when switched To Flint River water and didn’t add phosphate

Question 112

Contour interval

Answer 112

Change in Elevation b/w index contours / # of space between

Question 113

Land Survey Method

Answer 113

Smallest to largest; SE 1/4, NE 1/4, Sec 14, Township (T) 25, R3W

Question 114

Latiude

Answer 114

North and South

Question 115

Longitude

Answer 115

East and West

Question 116

’

Answer 116

Minutes

Question 117

”

Answer 117

Seconds

Question 118

Depressions

Answer 118

Circles with tick marks around them

Question 119

Hills

Answer 119

Circle within circle

Question 120

Flat lands

Answer 120

Flatter = farther apart the lines

Question 121

Elevation of hills and pits

Answer 121

Give range

Question 122

Large intervals

Answer 122

Steep

Question 123

Fractional Scale

Answer 123

1 Inch to … Miles

Question 124

RF scale

Answer 124

1inch to 62,500 inches

Question 125

Verbal Scale

Answer 125

1 inch : 45 miles

Question 126

Normal fault

Answer 126

tensional stress; Divergent boundaries

Question 127

Reverse fault

Answer 127

Compressional stress; Convergent boundaries; Usually highest magnitue earthquake; Tsunamis

Question 128

Strike slip

Answer 128

Shearing stress; transform boundary

Question 129

Calculating Richter magnitude from seismograph readings

Answer 129

Find difference from S/P wave – divide S wave from P wave; Find distance on graph, plot distance and amplitude found in first graph

Question 130

Amplitude

Answer 130

highest wave

Question 131

Determine location of epicenter

Answer 131

1. determine lage time b/w P and S waves; 2. go to graph to find distance b/w epicenter and seismograph; 3. plot circles with distance radius; 4. intersect of circles = epicenter (triangualte)

Question 132

What do the circles represent?

Answer 132

The distance the seismograph and the epicenter

Question 133

Mercalli scale

Answer 133

Measures intensity; Depends on population and building type

Question 134

Primary Waves

Answer 134

Compressional; Travels through liquids and solids; Travels through outer core and mantle; fastest

Question 135

Secondary Wave

Answer 135

up/down motion; Ground moves up and down; Travels through solids; Travels through mantle

Question 136

Raleigh wave

Answer 136

Rolling motion (like water); Very damaging; Slowest

Question 137

Love waves

Answer 137

Horizontal shifting of surface; Very damaging; Slowest

Question 138

Intraplate earthquake

Answer 138

Thought to be from ancient falts or the astehnosphere causing vertical movements

Question 139

Mantle

Answer 139

Solid that flows; P+S waves

Question 140

Outer core

Answer 140

Liquid; P waves

Question 141

Inncer core

Answer 141

Solid; P waves

Question 142

Moment magnitude scale

Answer 142

For bigger earthquakes; x32

Question 143

Epicenter

Answer 143

Directly above focus (Earthquake source)

Question 144

Formation of tsunami

Answer 144

Displacemnt of water due to power and enegy gained from subduction

Question 145

Evidence supporting contiental drift…

Answer 145

1. shapes of continents fit together; 2. Identical fossils seperated by oceans; 3. Same rock layers match actoss continents; 4. Glacial evidence in today’s tropical climates

Question 146

Why continental drift theory was not widely excepted?

Answer 146

Wegner didn’t know what moved the plates; couldn’t descire how continets plow through oceans b/c no ocean data

Question 147

Slab pull

Answer 147

plates pull themselves down at subduction zones due to gravity

Question 148

How are continetal shelves related to plate tectonics?

Answer 148

Not related at all

Question 149

Post wegner Evidence

Answer 149

ocean floor is not flat; zebra stripes; ocean crust is young compared to continets; Pattern of earthquakes

Question 150

What is a plate?

Answer 150

Lithosphere and upper asthenosphere

Question 151

Moho

Answer 151

the boudary b/w crust and mantle

Question 152

Older rocks at…

Answer 152

Edge of MI basin

Question 153

Amplitdue

Answer 153

10x

Question 154

Magnitude

Answer 154

32x; Energy released

Question 155

Prediction of earthquake

Answer 155

loaction can be predicted by when it will occur is not easily determined

Question 156

A tsunami is created from

Answer 156

an underwater reverse falt

Question 157

San Andreas fault type…

Answer 157

strike-slip

Question 158

Most of what we know about Earth’s interior

Answer 158

comes from seismic waves

Question 159

Location closest to epicenter

Answer 159

has largest waves

Question 160

Watertable is highest in…

Answer 160

Spring

Question 161

Trench plate boundary

Answer 161

Ocean-Ocean

Question 162

Composite plate boundary

Answer 162

Ocean- Continetal

Question 163

Divergent volcano

Answer 163

Fissure

Question 164

Hotspot volcano

Answer 164

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