Early History of the Earth

Similar documents
OCN 201: Earth Structure

Formation of the Earth and Solar System

The oldest rock: 3.96 billion yrs old: Earth was forming continental crust nearly 400 billion years ago!!

The History of the Earth

EARTH TAKES SHAPE 1. Define all vocabulary words. Crust: The thin and solid outermost layer of the Earth above the mantle. Mantle: The layer of rock

TODAY S FOCUS LAYERS OF THE EARTH

Origin of the Solar System

Earth s Interior Earth - Chapter 12 Stan Hatfield Southwestern Illinois College

Standard 2, Objective 1: Evaluate the source of Earth s internal heat and the evidence of Earth s internal structure.

Chapter 11 Review Clickers. The Cosmic Perspective Seventh Edition. Jovian Planet Systems Pearson Education, Inc.

The Earth. Part II: Solar System. The Earth. 1a. Interior. A. Interior of Earth. A. The Interior. B. The Surface. C. Atmosphere

Important information from Chapter 1

What are terrestrial planets like on the inside? Chapter 9 Planetary Geology: Earth and the Other Terrestrial Worlds. Seismic Waves.

Chapter 7 Plate Tectonics

Week Five: Earth s Interior/Structure

The Sun and Planets Lecture Notes 6.

Shape and Size of the Earth

Engineering Geology. Earth Structure. Hussien aldeeky

PTYS 214 Spring Announcements. Next midterm 3/1!

Chapter 9. ASTRONOMY 202 Spring 2007: Solar System Exploration. Class 26: Planetary Geology [3/23/07] Announcements.

Chapter 12 Lecture. Earth: An Introduction to Physical Geology. Eleventh Edition. Earth s Interior. Tarbuck and Lutgens Pearson Education, Inc.

Introduction to Earth s s Spheres The Benchmark

Earth. Properties of Earth. Earth's Interior. Earth is the planet that we know best

D) outer core B) 1300 C A) rigid mantle A) 2000 C B) density, temperature, and pressure increase D) stiffer mantle C) outer core

Origin of the Solar System

Topics: The Layers of the Earth and its Formation Sources of Heat Volcanos and Earthquakes Rock Cycle Rock Types Carbon Tax

Chapter 20 Earth: The Standard of Comparative Planetology

UGRC 144 Science and Technology in Our Lives/Geohazards

Outline 9: Origin of the Earth: solids, liquids, and gases. The Early Archean Earth

Lecture notes Bill Engstrom: Instructor Earth s Interior GLG 101 Physical Geology

The Earth. Overall Structure of Earth

Outline 9: Origin of the Earth: solids, liquids, and gases

Lecture 25: The Requirements for Life

Next opportunity to observe the Moon and Venus close together: Dec. 31, Announcements

Terrestrial Bodies of the Solar System. Valerie Rapson

The Solar System consists of

FORCES ON EARTH UNIT 3.2. An investigation into how Newton s Laws of Motion are applied to the tectonic activity on Earth.

Earth Science Review Ch 1 & 2. Chapter 1 - Introduction to Earth Science

Planet Earth. Our Home APOD

MULTIPLE CHOICE. Choose the one alternative that best completes the statement or answers the question.

Planet 2. Planet 1 Gas Giant. Planet 3. Earth

Prentice Hall EARTH SCIENCE

The Earth Fast Facts. Outline. The Solar System is Ours! Astronomy 210. Section 1 MWF Astronomy Building

Jovian Planet Systems

MULTIPLE CHOICE. Choose the one alternative that best completes the statement or answers the question.

Phys 214. Planets and Life

BELLRINGER How close a group of measurements are to each other is called. 1. estimation 2. accuracy 3. precision. 0% 0% 0% 0% 4.

For the next few weeks: Terrestrial Planets, their Moons, and the Sun. Planetary Surfaces and Interiors 2/20/07

Earth s Interior and Geophysical Properties. Chapter 13

Earthquakes. Earthquakes and Earth s Interior Earth Science, 13e Chapter 8. Elastic rebound. Earthquakes. Earthquakes 11/19/2014.

Our Planet Earth. Earth Systems

Structure of the Earth

Today. Solar System Formation. a few more bits and pieces. Homework due

Chapter 7 Earth and the Terrestrial Worlds

Jupiter & Saturn. Moons of the Planets. Jupiter s Galilean satellites are easily seen with Earth-based telescopes. The Moons

Activity 1-2: Origin of the Earth

The Interior of the Earth. The Interior of the Earth. Chapter 30. Merry Christmas. Quick Quiz

Importance of Solar System Objects discussed thus far. Interiors of Terrestrial Planets. The Terrestrial Planets

7-1 Inside the Earth

Moons of Sol Lecture 13 3/5/2018

Exploring Inside Earth

Nebular Hypothesis (Kant, Laplace 1796) - Earth and the other bodies of our solar system (Sun, moons, etc.) formed from a vast cloud of dust and

Layers of Earth Write us-

Terrestrial Planets: The Earth as a Planet

Chapter 2 Geography. Getting to know Earth

The Dynamic Crust 2) 4) Which diagram represents the most probable result of these forces? 1)

Structure of the Earth EARTH ( ) - need a solid, will not go through a liquid

Marine Science and Oceanography

What Do Scientists Know About Earth s Surface and Interior?

Chapter 9 Planetary Geology: Earth and the Other Terrestrial Worlds

LIGO sees binary neutron star merger on August 17, 2017

Chapter Seven: Heat Inside the Earth

Today. Events. Terrestrial Planet Geology. Fall break next week - no class Tuesday

Earth. Interior Crust Hydrosphere Atmosphere Magnetosphere Tides

Inner and Outer Planets

Chapter 5 Review. 1) Our Earth is about four times larger than the Moon in diameter. 1)

Recall Hypsometric Curve?

Solar System. The Jovian Satellites. Regular vs. Irregular Satellites. Jovian satellites reside beyond the frost line

5. Convergent boundaries produce a relatively low number of earthquakes compared to other boundaries. a. True

1. In the diagram below, letters A and B represent locations near the edge of a continent.

How do we know about the different layers of Earth's interior when we've never been there?

Structure of the Earth

Lecture 11 The Structure and Atmospheres of the Outer Planets October 9, 2017

10/11/2010. Acceleration due to gravity, a. Bulk Properties Mass = 6 x kg Diameter = 12,756 km Density = 5515 kg/m 3 (mix of rock and iron)

sonar seismic wave basalt granite

A View of Earth. Luc Ikelle 2012

Directed Reading A. Section: Inside the Earth. 1. The Earth is composed of several. THE COMPOSITION OF THE EARTH. compounds make up the core?

Chapter Outline. Earth and Other Planets. The Formation of the Solar System. Clue #1: Planetary Orbits. Clues to the Origin of the Solar System

Earth s s Topographic Regions

EASC100: EXAM1 (07) Lithosphere and Hydrosphere

Object Type Moons Rings Planet Terrestrial none none. Max Distance from Sun. Min Distance from Sun. Avg. Distance from Sun 57,910,000 km 0.

PLATE TECTONICS Chapter 4 Notes

EES 1 Natural Disasters & Earth Resources Exam 1

Solar System. The Jovian Satellites. Regular vs. Irregular Satellites. Jovian satellites reside beyond the frost line

The Solar System 6/23

Chapter 11 Lecture. The Cosmic Perspective Seventh Edition. Jovian Planet Systems Pearson Education, Inc.

Nature and Origin of Planetary Systems f p "

Lecture 24: Saturn. The Solar System. Saturn s Rings. First we focus on solar distance, average density, and mass: (where we have used Earth units)

THE GAS GIANTS JUPITER VENUS MARS EARTH

The Solar System. Tour of the Solar System

Transcription:

OCN 201 Earth Structure Early History of the Earth Rapid accretion of Earth and attendant dissipation of kinetic energy caused tremendous heating Earth possibly melted completely In molten state, differentiation would occur: heavy elements would sink and lighter elements would move outward 1

Structure of the Earth 30 km 1,221 km 2,300 km 2,900 km 5,400 C (9,800 F) Inner core: solid Fe-Ni Outer core: liquid Fe-Ni Mantle: rocky: Mg-Fe silicate Crust: rocky: Mg-Fe-Al-Ca silicate Oceans: H 2 O with dissolved salts Atmosphere: N 2, O 2, Ar Question How do we know that the Earth consists of different layers? A. By analyzing samples collected by drilling into the Earth s interior B. By passing x-rays through Earth C. By studying the propagation of seismic waves that detect differences in density D. By collecting lava from volcanoes 2

Mass of Earth Kola Superdrill Borehole: deepest hole ever drilled (Kola Peninsula, Russia), reached a depth of 12,063m (7.5 miles) less than 1/500 of the radius of Earth Samples collected from drilled holes consisted of lightweight rock Earth s mass, known thanks to studies of its orbit, is much greater than predicted from the density of rocks collected at the deep drill holes Earth must contain heavier materials in the interior Seismic Waves Low-frequency waves generated by earthquakes, can travel through the Earth s interior Two types: Primary waves or P waves: compressional waves like those seen in a Slinky that is alternately stretched and compressed Secondary waves or S waves: side to side waves like those seen in a shaken rope 3

P Waves Primary waves Compressional Faster than S waves Like a spring compressing and dilating Travel through solid, liquid or gas S Waves Secondary waves Slower than P waves Shear Like undulation of string Do not propagate through a liquid No restoring force in liquid 4

Seismic Waves P and S waves are generated simultaneously Seismic waves travel through Earth and are registered at distant seismographs, instruments that sense and record earthquakes P waves are faster than S waves How earthquakes contributed to our understanding of a layered Earth Richard Oldham was the first to identify P and S waves on a seismograph Seismic waves passing through an homogeneous Earth would not be reflected or refracted they would follow straight lines In a planet that becomes gradually denser and more rigid with depth, waves would bend 5

How earthquakes contributed to our understanding of a layered Earth In 1906 Oldham discovered that S waves did not survive deep passage through Earth indicating the presence of a dense fluid core There is a shadow zone in S waves opposite to earthquakes. P waves penetrate the outer core but are bent in the transit In 1936 Inge Lehman discovered the existence of a solid inner core Internal Structure of the Earth (based on chemical properties) Crust: the skin of Earth: 0.4% of Earth mass and <1% of its volume Oceanic: basalt, 2.9 g/cm 3 Continental: granite, 2.7 g/cm 3 Mantle: 68% of Earth mass 83% of its volume Solid Mg-Fe-silicates, 4.5 g/cm 3 Core: 32% of Earth mass 16% of its volume Inner Core: solid Fe-Ni, 16 g/cm 3 Outer Core: liquid Fe-Ni, 12 g/cm 3 6

Question The inner core of the Earth is made of A. Aluminosilicates B. Liquid Fe and Ni C. Mg-Fe silicates D. Solid Fe and Ni E. None of the above Internal Structure of the Earth (based on physical properties) Use viscosity and strength to describe outer layers: Lithosphere: lithos = rock 0-100 km Cool and rigid outer layer crust + uppermost mantle Asthenosphere: asthenes = weak 100-700 km hot, deformable, capable of flow upper mantle Lower mantle: 700-2900 km Extends to the core Lithosphere (rigid) Upper Asthenosphere mantle (deformable, capable of flow) Lower mantle 14 7

Earth s Internal Structure: top 700 km Continental Crust 35 km thick Made of granite (really granodiorite or andesite) 2. 7 g/cm 3 Oceanic Crust Only 6 km thick Made of basalt (like Hawaiian Islands) 2.9 g/cm 3 The rigid lithosphere (crust and uppermost mantle) floats on top of the deformable (i.e. plastic) asthenosphere Why do large regions of continental crust stand high above sea level? Isostatic equilibrium 15 Summary: internal structure of Earth Based on chemical composition Based on physical properties 8

Formation of Earth s Atmosphere and Ocean Earth formed 4.6 billion years ago First, primordial atmosphere was probably stripped away by radiation from newly formed sun Soon after, gases trapped inside the Earth started outgassing through volcanic activity forming Earth s secondary atmosphere (water, carbon dioxide, nitrogen) The gases condensed into clouds in the cooler upper atmosphere, eventually forming precipitation Initially Earth s surface was too hot to accumulate liquid water, precipitation lasted millions of years Once Earth started to cool, rain gradually collected into oceans A large fraction of the water in the ocean was probably delivered by wet planetesimals (and some comets) from the outer asteroid belt Is Earth fully outgassed today? Outgassing of Earth continues today Evidence: 3 He detected in ocean, released from interior of Earth by volcanic processes Outgassing was likely faster in early Earth: heat production by radioactive decay was 4-5 times greater than today outgassing would have been correspondingly faster 9

Composition of Volcanic Gases TODAY 80% Water vapor (H 2 O) 10% Carbon dioxide (CO 2 ) 6% Sulfur dioxide (SO 2 ) 1% Hydrogen (H 2 ) Trace nitrogen (N 2 ), hydrochloric acid (HCl) Major gases are in oxidized form now Early volcanic gases were likely in more reduced form: H 2, CH 4, H 2 S, NH 3 Question The current atmosphere is made up of 21% oxygen Where does the oxygen in the atmosphere come from? A. Volcanic eruptions B. Asteroids crushing into earth C. Photosynthetic organisms D. None of the above 10

Possible evolution of Earth s atmosphere over geologic time Eric H. De Carlo, OCN 201, Sp2010 Earth s ocean Life on Earth would not exist without the ocean Earth is the biggest planet within our solar system with a liquid ocean Oceans cover ~71% of Earth s surface, but account for only 0.02% of its mass Earth s ocean contain ~ 96.5% of Earth s water <3% of all water on Earth is freshwater > 2/3 of Earth s freshwater in ice caps and glaciers Credit: Howard Perlman, USGS/illustraion by Jack Cook, WHOI 11

Why do we have oceans? Rapid accretion of cold, icy, water rich planetesimals (allowed retention of volatile H 2 O after ice melted) Outgassing of interior of Earth brought H 2 O to the surface Moderate distance from the Sun moderate temperature water can be present in liquid form Are there other oceans in our solar system? https://www.jpl.nasa.gov/edu/learn/slideshow/ocean-worlds/ 12

~25% of Ceres mass is made of water Some of that water might be in a liquid form Scientists predict that Ceres has a significant liquid water reservoir, or even an ocean, far beneath the surface NASA/JPL-Caltech Distance from sun: 2.8 AU NASA/JPL-Caltech A subsurface salty ocean may exist beneath Europa s icy crust Possibly a dynamic ocean, could support life Tidal heating from Jupiter maintains this ocean liquid and could create lakes on the surface Distance from sun: 5.2 AU 13

NASA/JPL-Caltech Largest moon in our solar system, and only moon with its own magnetic field May have a large, underground, saltwater ocean Probably trapped between layers of ice unlikely to support life Distance from sun: 5.2 AU Has a 10km deep global ocean under a thick layer of ice (30-40 km) Ocean venting into space from deep fissures (called tiger stripes ) near the south pole NASA/JPL-Caltech Organic compounds, volatile gases, water vapor, carbon dioxide, carbon monoxide, salts and silica have been detected in plume Distance from sun: 9.5 AU 14

NASA/JPL-Caltech Titan has a very salty ocean under its outer, icy crust Might be in contact with a rocky core, could have the chemical ingredients for life It also has lakes and seas of methane and ethane on its surface Distance from sun: 9.5 AU Direct evidence of ice on Moon surface discovered by UHM SOEST investigators! Moon s south pole Moon s north pole NASA https://www.hawaii.edu/news/2018/08/21/water-ice-on-the-moon-discovered/ 15

2024 © sciencedocbox.com Privacy Policy | Terms of Service | Feedback