Bowtie Nebula. Helix Nebula Stingray Nebula Tycho Supernova.
Midterm #1 Info€¦ · 1. Initial cloud of interstellar gas (the solar nebula) 3. Accretion of...
Transcript of Midterm #1 Info€¦ · 1. Initial cloud of interstellar gas (the solar nebula) 3. Accretion of...
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Midterm #1 Info
Midterm info:
Midterm exam on Thursday, September 24th
50 multiple choice/true-false questions
Covers material from Lectures 1-8
1 page “cheat sheet” hand-written allowed (double-sided ok)
Things to help you study: 1. Lecture notes 2. Midterm practice exam (posted on web) 3. Homework 4. Assigned reading
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If you could travel back in time to when the Earth first formed as a planet, approximately how many years back in time would you have to travel?
A. 4 hundred years B. 4 hundred thousand years C. 4 million years D. 4 billion years E. 4 trillion years
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The gaseous outer planets are composed of mainly ___.
A. nitrogen and ethane B. oxygen and carbon dioxide C. sulfur dioxide and argon D. hydrogen and helium
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What planet is shown in the image below?
A. Mars B. Venus C. Mercury
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Which of the following is NOT a dwarf planet?
A. Pluto B. Eris C. Neptune D. Makemake
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10. The lithosphere is the part of the mantle that flows like silly putty or modeling clay when you hit it with a hammer.
A. True B. False
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Olivine is a ___ mineral. A. Sulfide B. Sulfate C. Native element D. Oxide E. None of the above
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Oceanic crust is ___ in composition.
A. Basalt B. Andesite C. Rhyolite
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The cartoons show magma cooling (a) above ground and (b) deep in the crust. Which setting is more likely to produce a rock with coarse-grained phaneritic texture?
A. (a) B. (b)
(a) (b)
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Karst topography is the result of
a. Soil erosion b. Biological weathering of silicate rock c. Chemical weathering of carbonate rock d. Spheroidal weathering e. All the above
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Metamorphic rocks form when
a. magma cools and solidifies. b. sediments are lithified and compacted. c. seawater precipitates out of sedimentary rocks through hydrolysis.
d. igneous, sedimentary, or other metamorphic rocks are transformed because of high temperature and/or pressure, or changing chemical conditions.
e. igneous and sedimentary rocks are transformed because of cooling temperatures, decreases in pressure, and oxidation.
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1. What you should know :"
2. 1. Describe the solar nebula hypothesis "3. 2. Understand the Sun and how it works"4. 3. State the ways that Mercury, Venus, and Mars are different from Earth"5. 4. Describe each of the gas giant planets"6. 5. Define a dwarf planet"
Chapter 2: Solar System
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• The Solar Nebula Hypothesis – ours began about 5 billion years ago
2. The nebula collapses and begins to rotate
4. Gravity pulls planetesimals together to form planets
1. Initial cloud of interstellar gas (the solar nebula)
3. Accretion of cooler outer disk into planetesimals
How Did the Solar System Form?
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Our Solar System Consists Of: • 1 unordinary star • 8 classical planets • 5 dwarf planets • 240+ known satellites (moons) • Millions of comets and asteroids • Countless particles; and interplanetary space
Earth, the Sun, and other objects in the Solar System originated at the same time from the same source and have
evolved in varying ways since then
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Our Sun • Solar core is site of
nuclear fusion.
• H is converted to He, which has less mass.
• Mass differential is expelled as energy (light and heat).
• The Sun is getting “lighter” through time.
• The Sun has enough fuel to last another 4 to 5 billion years.
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Mercury Venus Earth Mars
Terrestrial Planets
Main components: O, Fe, Si, Mg, Ca, K, Na, Al
Terrestrial planets are small and rocky, with thin atmospheres, silicate & metallic shells.
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Jupiter Saturn
Uranus Neptune
Gas Giant planets are massive with thick atmospheres. Main components: He, H, CO2, H2O, N2, NH3, CH4
Gas Giant Planets
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a. Pluto, Venus, Earth, Mars, Asteroids, Jupiter, Saturn, Neptune, Uranus
b. Mercury, Venus, Mars, Earth, Asteroids, Jupiter, Saturn, Uranus, Neptune
c. Asteroids, Mercury, Venus, Earth, Mars, Jupiter, Saturn, Uranus, Neptune
d. Mercury, Venus, Earth, Mars, Asteroids, Jupiter, Saturn, Uranus, Neptune
e. Neptune, Mercury, Mars, Venus, Earth, Jupiter, Asteroids, Saturn, Uranus
Which lists the correct order of the planets? Closest to the Sun Most distant from the Sun
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May 7, 2004
• Icy bodies left over from formation of Solar System
• Possibly brought water & organic material to early Earth
Comets
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Defined in 2006 Orbit the sun (not a planet) Have a rounded shape Has not cleared its neighborhood of objects (unlike planets)
Asteroid belt: Ceres
Kuiper Belt: Pluto/Charon Eris Haumea Makemake
Probably hundreds more!
Earth’s Moon
for scale
Dwarf Planets
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• What you should know :"
• 1. Describe the sources of heat of early Earth and the consequences of heat build-up"
• 2. Describe Earth’s internal layers"• 3. Describe major processes of these layers"• "
Chapter 3: Planet Earth
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What did Earth’s surface look like when
it first formed?
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Early Heat Within The Earth Early Earth began to heat as the last collisions subsided
1. Initial heat from impacts (bombardment) 2. Collisions produced heat that was stored (rock good insulator) 3. Radioactivity 4. Gravitational contraction
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The Iron Catastrophe
Friction & energy release from sinking iron releases even more heat!
• Began once Earth heated to melting point of iron (1538°C) • Iron and nickel sink to the core – chemical differentiation
Differentiation: A layered Earth Archean Eon and ever since
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How is Earth organized?
a. Earth has an inner and outer core, a mantle, and a crust. b. Earth has an inner mantle and an outer lithosphere, with a liquid inner core. c. Earth’s crust rests atop the liquid mantle and the solid outer core. d. The inner core is solid, the mantle is solid, and the crust is solid under the continents and liquid under the oceans. e. None of the above.
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Earth’s Major Layers: Core, Mantle, Crust
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Where does Earth’s magnetic field come from?
A. Core B. Mantle C. Crust D. Atmosphere
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• Fluid motion of liquid iron in the outer core generates Earth’s magnetic field
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Made of solid rock: Silicate (silicon + oxygen) 2900 km thick Moves heat around through convection Mantle rock also deforms as a fluid
Like Silly Putty, behaves as a: Solid – over short time Fluid – over long time
Earth’s Mantle
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Continental Crust (~35 km thick) Formed early in Earth’s history Rocks less dense than mantle rocks Is essentially “floating” on the mantle
Oceanic Crust (~7 km thick) Is currently being formed Is denser than continental crust (more iron +
magnesium)
Like floating ice extends deeply below water level
Earth’s Crust granite
basalt
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1. What you should know:"
2. 1. Define the term mineral"3. 2. List 5 useful minerals, describe their composition and how
they are used"4. 3. Describe the structure of an atom"5. 4. Describe the formation of silicate structures"6. 5. List some common rock-forming minerals"7. "
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What is a Mineral?
• natural occurrence • inorganic • solid
• has a crystalline structure* • has a definite chemical composition*
Minerals are natural, inorganic, solid crystalline compounds with a definite (but variable) chemical composition
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Olivine (Mg,Fe)2SiO4
Halite (NaCl)
Ice (H2O) Copper (Cu)
Gypsum (CaSO4)-2(H2O)
Pyrite (FeS2)
Minerals
Fool’s Gold Salt
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Which are minerals?
a. Diamonds and pearls b. Pearls and ice c. Ice and diamonds d. Synthetic gemstones e. Amber and diamonds
iClicker Question
diamonds
synthetic gemstones
pearls amber ice
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Is the nucleus positively or negatively charged?
What gives the nucleus its charge? If an atom has a neutral charge (no charge), how many electrons & protons does it have?
Particle Mass Charge
Proton 1 +1
Neutron 1 0
Electron 0 -1
nucl
eus
Atom Review Positive
Protons
Equal #
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Mineral Classes (7) Classified by abundant chemical elements Understanding how they form tells us where to
look for them
Halides
Silicates Native
Elements Oxides
Sulfides Sulfates Carbonates
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Silicates (Si + O) • Si & O are most common elements • Fundamental unit: silicate tetrahedron (4-sided pyramid)
• -1 Si + 4 O atoms
Si
O
O O O
Garnet: high temp & pressure
Under special conditions, rare silicates may crystallize
Most silicates are formed from cooling magma.
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Carbonates Contain carbonate anion (CO3)-2
Form in waters saturated by calcium (oceans) and as a result of biological processes
Examples: calcite CaCO3 --> limestone
limestone Calcite is calcium carbonate
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1. What you should know:"
2. 1. Describe igneous rock"3. 2. Identify the information revealed by igneous texture"4. 3. Identify how igneous rock color relates to chemical "5. composition"6. 4. Describe the process of igneous evolution and the role of "7. plate tectonics in it"8. 5. Describe the environments where basalt accumulates "
1. Chapter 5: Igneous Rocks"
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Fundamental Rock Types Igneous Rocks: form when magma solidifies
Sedimentary Rocks: form when sediment becomes cemented into solid rock
Metamorphic rocks: form when heat, pressure, or hot water alter any preexisting rock
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Types of Igneous Rocks Extrusive (volcanic) - forms when magma erupts & solidifies on the surface
Intrusive (plutonic) - forms when magma solidifies within the crust
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Extrusive Igneous Rocks Lava: fluid magma that flows from a crack or volcano onto Earth’s surface
Magma cools quickly = less time for crystals to form
Ex.: Basalt - common volcanic rock, ocean crust, few crystals
Porphyric rock
Obsidian
Basalt
Lava
Rhyolite
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Intrusive Igneous Rocks
Magma cools slowly, more time for crystals to form
Ex. Granite: most abundant rock in continental crust medium- to coarse-grained crystals
Granite Gabbro
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iClicker Question
Granite has large crystals and is an
intrusive rock.
1. Where is granite formed? 2. Where is basalt formed? Basalt has small
crystals and is an extrusive
rock.
X
Y
a. (1) X (2) Y b. (1) Y (2) X
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Composition: assemblage of minerals (Si vs. Mg)
Texture: size and arrangement of crystals (cooling history)
Igneous rocks are classified based on their composition and texture
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Composition
Text
ure
The Major 7 Types of Igneous Rocks
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Composition Types
Felsic: Feldspar & Silica Granite (large grains), Rhyolite (small)
Mafic: Magnesium & Iron (Fe) Gabbro (large), Basalt (small)
Ultramafic: High Mg & Fe Peridotite (mantle material, rare)
Intermediate: Andesite
Felsic Mafic
Ultramafic
Andesite
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Composition vs. Color Igneous color (gray scale) is used to estimate chemical composition
Felsic Intermediate Mafic
Mg/Fe content Si/O content
more less less more
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Texture Styles
Phaneritic: • Slow cooling, larger crystals • Coarse texture • Intrusive or plutonic
Aphanitic: • Rapid cooling, smaller crystals • Finer texture • Extrusive or volcanic
Other textures are glassy, pyroclastic, vesicular, and porphyritic Volcanic bomb - aphanitic
phaneritic
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Phaneritic large minerals
Large crystals had a long time to
crystallize.
Texture
Example: Granite
iClicker Question Is this rock intrusive or extrusive?
A. intrusive B. extrusive
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Texture
Aphanitic mineral grains too small to see with the unaided eye
Small crystals had a short time
to crystallize.
Example: Basalt
iClicker Question Is this rock intrusive or extrusive?
A. intrusive B. extrusive
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What you should know:"
1. Compare/contrast 3 types of weathering"2. Describe types of physical weathering"3. Describe the role of water in chemical weathering"4. List and define typical soil layers"5. Describe ways by which sediments are eroded"
Chapter 7: Weathering"
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Weathering Def.: processes that decompose rocks & convert
them to loose gravel, sand, clay, & soil
Three primary types: Physical Biological Chemical
Arches Nat’l Park,!Utah!
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Types of Physical Weathering Pressure-release fracturing Abrasion Freeze-Thaw (frost wedging) Hydraulic Action Growth of Salts
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Chemical Weathering Def.: transformation of one mineral into another
via chemical processes
Types: Hydrolysis (just add water…) Oxidation (“rusting”) Dissolution (“dissolving”)
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Biological Weathering Involves both physical and chemical
processes
Lichens, !Irish Sea!
Plant roots!
1. Simple breaking 2. Movement and mixing 3. Carbon dioxide produced by respiration forms
carbonic acid 4. Organisms influence moisture in soil
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12 Major Types of Soil
Five Soil Forming Factors:! Climate Parent Rock Time Topography Biological Processes!
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Soil
• Def.: upper layers of regolith that support plants
• Regolith: thin layer of loose rock, clay, & sand that overlies bedrock
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What you should know:"
1. Understand why geologists study sedimentary rocks"2. Compare 3 types of sediment"3. Describe processes that act on sediments"4. List primary clastic sedimentary rocks "5. List primary chemical sedimentary rocks"6. List primary biogenic sedimentary rocks"
Chapter 8: Sedimentary Rocks"
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Sedimentary Rocks
Generally, made from older rocks Make up only ~5% of Earth’s crust, but….. Make up 75% of all rocks exposed at the
surface
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Why Study Sedimentary Rocks?
• Reflect physical and chemical characteristics of source environments
• Contain direct and indirect evidence of life
• Can be interpreted to recreate Earth history
• Source of “fossil fuels”
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Sedimentary Rock Types
Clastic – broken down rocks (clasts) Ex.: sandstone
Chemical – directly ! precipitates out of water! Ex.: rock salt!
Biogenic – remains of living ! organisms! ! ! ! ! !! Ex.: limestone, chalk, coal!
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Distance Traveled?!
Think: roundness? sorting?!
iClicker Question:!Did these rocks travel a short or long distance?!
a. Short!b. Long!
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Four steps: #1!
#2!#3!#4!
Clastic Sedimentary Rock Formation!
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Step 4: Lithification Def.: when loose sediment becomes compacted & cemented
Compaction: pressure of overlying sediments packs grains & squeezes water from pores!
Cementation: pore spaces fill with ions that precipitate from water (calcite, quartz, iron oxide)!
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From Sediments to Rocks! sediment + compression + time = rock!
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Types: Chemical Sedimentary Rocks! Precipitation of minerals from a solution Ex.: Salt, gypsum
gypsum!Salt deposit!
salt!
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rock salt rock gypsum limestone
travertine
micrite dolostone
chert
Types: Chemical Sedimentary Rocks!
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Lithification of “organic” (plants, etc.) material Ex.: Coal is formed from preserved plant material in
swamps
Types: Biogenic Sedimentary Rocks!
coal! chert!
Coal swamp forest!
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skeletal limestone
coquina
chalk coal
Types: Biogenic Sedimentary Rocks!
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What you should know:"
1. Describe the process of metamorphism"2. Compare/contrast regional and contact metamorphism"3. Describe the role of water in metamorphism"4. Describe the metamorphic grades and how they are
identified "
Chapter 9: Metamorphic " Rocks"
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Metamorphic Rocks Metamorphism: process of rising temperature & pressure, or changing chemical conditions, that transforms rocks &
minerals
Ways: 1. Heat 2. Pressure 3. Fluid activity
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Def.: intensity of metamorphism that formed the rock As you go deeper in the Earth, it gets hotter, pressure increases Rocks evolve through a sequence of metamorphic grades …
Metamorphic Grade
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Metamorphism tells us a rock’s tectonic history
slate
phyllite schist
gneiss
Metamorphic Grade
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They serve as geothermometers and
geobarometers
Index Minerals tell us a rock’s temperature and pressure history
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Types of Metamorphism
Contact
Regional
Hydrothermal
separate processes, but can happen @ same time
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when magma comes in contact with basement rock at shallow depth and heats it up
magma also brings reactive fluids
Contact Metamorphism
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When major crustal movements build mountains and deform rocks
Rocks deformed & heated at same time
Regional Metamorphism
regional metamorphism
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Regional Metamorphism = stress = foliation
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Hydrothermal Metamorphism
Basalt
Serpentinite
Water
• Heat and pressure release chemically active fluids from rocks. • These fluids transport heat, ions dissolve in hot water • Reactions promote recrystallization
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Slates
Phyllite
Schists
Gneisses
Common Metamorphic Rocks
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Midterm #1 Info
Midterm info:
Midterm exam on Thursday, September 24th
50 multiple choice/true-false questions
Covers material from Lectures 1-8
1 page “cheat sheet” hand-written allowed (double-sided ok)
Things to help you study: 1. Lecture notes 2. Midterm practice exam (posted on web) 3. Homework 4. Assigned reading