Radiometric Dating and the Age of the Earth

Similar documents
Stratigraphy and Geologic Time. How old are the rocks?

Unit 2 Lesson 3 Absolute Dating. Copyright Houghton Mifflin Harcourt Publishing Company

G-100 Lectures 12 & 13 Clocks in Rocks

geologic age of Earth - about 4.6 billion years

Geochronology. study of 'Earth time' Historical Geology. study of the physical and biological evolution of the Earth & its life

Bishop Ussher (1650) Absolute Age Dating. Early attempts at the age of the Earth

The Geology of Pacific Northwest Rocks & Minerals Activity 1: Geologic Time

Measuring the Age of things (Astro 202 2/12/08) Nomenclature. Different Elements. Three Types of Nuclear Decay. Carbon 14 Decay.

Chapter 3 Time and Geology

Notepack 19. AIM: How can we tell the age of rocks? Do Now: Regents Question: Put the layers of rock in order from oldest to youngest.

3 Absolute Dating: A Measure of Time

Chapter 3 Time and Geology

II. Knowing and Understanding the Six Principles of Stratigraphy:

GEOLOGIC EVENTS SEDIMENTARY ROCKS FAULTING FOLDING TILTING

Determining Absolute Age

Chapter 17. Geologic Time: Concepts and Principles

Geologic Time: Concepts and Principles

Relative Geologic Time Scale. Geologic Time Scale

Geologic Time. Absolute versus relative time. Absolute time. Absolute time: time in specific units (hours, days, years, etc.)

HISTORICAL NOTES. Catastrophism. James Usher, mid-1600s, concluded Earth was only a few thousand years old

Telling Geologic Time

6. Relative and Absolute Dating

SCIENTIFIC DATING IN ARCHAEOLOGY

2. Can you name earth s three eras and explain why they are divided that way?

Geologic History Unit Notes. Relative age - general age statement like older, younger more recent

CHAPTER 8 DETERMINING EARTH S AGE RELATIVE AND ABSOLUTE ROCK AGES. Loulousis

Chemistry 19 Prep Test - Nuclear Processes

Radioactive Clocks or Radiometric Dating

Name: Period: Half-life and Radiometric Dating

Lesson Learning Goal

9. RELATIVE AND RADIOMETRIC AGES

Radioactivity. Ernest Rutherford, A New Zealand physicist proved in the early 1900s a new model of the atom.

Prentice Hall EARTH SCIENCE

GEOLOGY 1--Physical Geology Lecture #2, 2/9/2006

Quiz Three (9:30-9:35 AM)

The principle of fossil succession allows strata in different parts of the world to be correlated, and worldwide relative ages to be worked out

Geologic Time Essentials of Geology, 11th edition, Chapter 18 Geologic Time: summary in haiku form Key Concepts Determining geological ages

Issues of the Age of the Earth Parts 1 & 2

Chapter 09 Geologic Time

Unit A (225 m.y. old) Unit B (how old is it?) Unit C (275 m.y. old)

5. Chronostratigraphy and Geological Time

How old is Earth? Bishop of Ireland James Ussher

Lecture Outline Friday Feb. 21 Wednesday Feb. 28, 2018

21.3 Radioactive Decay

Dating the age of the Earth

Geologic Time. How old is Earth?

ENVI.2030L Geologic Time

Chapter 11 Nuclear Chemistry


Geologic Time. Kentucky Geological Survey Modified McCann

Geologic Time and Life in the Oceans. Oceans and Life. How Old is Earth? The Solar System? Oceans are the birthplace of life.

NOTES: The Fossil Record and Geologic Time

Phys 214. Planets and Life

Ge 11a, 2014, Lecture 3 Radioactivity and quantitative geochronology

INTEGRATED STRATIGRAPHY. Amalia Spina

Chapter 30 Nuclear Physics and Radioactivity

Geologic Time: Hutton s Outcrop at Siccar Point. How do we determine age (relative & absolute) What is the age of the earth? How do we know?

TOPIC 1: RELATIVE DATING ESSENTIAL QUESTION: HOW DO WE DETERMINE A ROCK S AGE BY THE SURROUNDING ROCKS?

Absolute Ages of Rocks

Relative Dating. How do we determine a rocks age by the surrounding rocks?

GEOLOGIC TIME. Smith and Pun, Chapter 7 DETERMINING THE ORDER OF EVENTS

Carbon Dating. Principles of Radiometric Dating. 03 nuclear decay and the standard model June 05, 2013

Atomic Notation (or Nuclear Symbol): Shorthand for keeping track of protons and neutrons in the nucleus

What happens during nuclear decay? During nuclear decay, atoms of one element can change into atoms of a different element altogether.

Half Life Introduction

6/30/2018. Geologic Time. Earth, Chapter 9 Chapter 9 Geologic Time

What we ll learn today:!

Isotopes of an element have the same symbol and same atomic number - Mass number refers to the protons plus neutrons in an isotope

TRACE FOSSIL FOSSIL ICE CORE RELATIVE DATING SUPERPOSITION ABSOLUTE DATING GEOLOGIC COLUMN UNIFORMITARIANISM HALF-LIFE RADIOACTIVE DECAY

NOTES: 25.2 Nuclear Stability and Radioactive Decay

Clues to Earth s Past

10.1 RADIOACTIVE DECAY

Sources of Radiation

The Electromagnetic Spectrum. 7.1 Atomic Theory and Radioactive Decay. Isotopes. 19K, 19K, 19K Representing Isotopes

2. How do igneous rocks form? 3. How do sedimentary rocks form? 4. How do metamorphic rocks form?

Earth s History. The principle of states that geologic processes that happened in the past can be explained by current geologic processes.

Atomic Structure Summary

Timing of Geologic Events. Geologic Time Terms. Laws / Principles of Stratigraphy

Principle of Uniformitarianism: Laws of nature don t change with time

The Earth. February 26, 2013

GEOLOGIC TIME AND GEOLOGIC MAPS

Geologic Time. Earth s History

Geology Laboratory - GEOL 101. Ray Rector - Instructor

25.1. Nuclear Radiation

Earth Science 11: Geologic Time Unit

Geology of the Hawaiian Islands

9. DATING OF ROCKS, FOSSILS, AND GEOLOGIC EVENTS

Absolute Age - Radioactive Decay. Absolute Age - Isotopes. Absolute Age - Radioactive Decay

Radioactive Dating. chapter 9. The Chemistry of Unstable Elements

Radioactive Decay. Becquerel. Atomic Physics. In 1896 Henri Becquerel. - uranium compounds would fog photographic plates as if exposed to light.

Directed Reading. Section: Determining Relative Age. conclusions? UNIFORMITARIANISM. geology? of Earth? Skills Worksheet

Read It! Station Directions

GEOLOGICAL TIME / DATING TECHNIQUES

GEOLOGICAL TIME / DATING TECHNIQUES

Science 10 Radioactivity Review v3

November 1, Aims: Agenda. SWABT explain the absolute age of rocks using radiometric dating.

time is critical for geologic processes!

8. GEOLOGIC TIME LAST NAME (ALL IN CAPS): FIRST NAME: Instructions

Chapter 11 (Geologic Time)

Chemistry 201: General Chemistry II - Lecture

Transcription:

Radiometric Dating and the Age of the Earth How to tell time: Relative Time: putting events in time order. Law of Superposition Correlation of rock layers using fossils. There is a wonderful order and regularity with which nature has disposed of fossils and assigned to each its peculiar stratum. William Smith How to tell time: Absolute Time: Determining age in years. How old is the Earth? My calculations based on the Bible prove the Earth is 6000 years old! James ssher

Early attempts to measure the age of the Earth: How long would it take to deposit all the strata? How long would it take the oceans to get salty? At least 75 million years. Perhaps much longer? Thomas Huxley Early attempts to measure the age of the Earth: William Thomson (Lord Kelvin) 1824-1907 British physicist Find rate at which heat is escaping from Earth s interior. Assume Earth started as molten rock. How long would it have taken the Earth to cool to its current temperature? 20 to 30 million years. When you can measure what you are speaking about and express it in numbers, you know something about it. 30 million years is not enough time! But how can you argue with physics!? There must be some mistake! How could Kelvin be wrong?

Henri Becquerel (1852-1908) 1896 - discovers that uranium emits energetic particles. Works with Marie and Pierre Curie to develop theory of natural radioactivity. If it s 1903, then that Nobel Prize is for me! Radioactivity heats up surrounding rock. Kelvin s assumption of steady cooling is wrong, which invalidates his argument. So, how old is the Earth?? Ernst Rutherford and Frederick Soddy (1902) Radioactive decay changes atoms from one element to another. The parent isotope decays into a daughter isotope. The rate of decay is mathematically constant. The daughter isotope accumulates over time. The progressive accumulation of daughter isotopes in a rock could provide a basis for measuring geological time. Ernst Rutherford Parent isotope Daughter isotope Time

Bertram Boltwood (1870-1927) Yale niversity radiochemist. Discovers the ranium - Lead decay series. 1907 - Measures the proportions of ranium (parent) to Lead (daughter) in minerals from 10 different localities on three continents. Calculates ages from 410 million to 2.2 billion years. The Earth is at least 10X older than geologists had suspected! Bertram Boltwood (1827-1927) Basics of Radioactivity Atomic nuclei contain protons (+) and neutrons (0). Identity of element is given by # of protons. Atomic mass = # protons + # neutrons e - e - Nucleus + 0 0 + Helium - 2 protons, 2 neutrons Mass = 4 Basics of Radioactivity Isotopes Atoms with same # protons but different # neutrons. Same element, different mass. 0 0 + + 0 + 0 + 0 0 0 + + 0 + 0 + Carbon - 6 protons,6 neutrons Mass = 12 12C Carbon - 6 protons,7 neutrons Mass = 13 13C

Basics of Radioactivity Radioisotopes Isotopes that are too massive to be stable. At some point in time, they decay to a different isotope. Decay emits radiation. e - 0 0 0 + 0 + 0 + 0 + 0 0 + + 0 0 + Carbon - 6 protons,8 neutrons Mass = 14 14C = radioactive Nitrogen - 7 protons,7 neutrons Mass = 14 14N = stable Basics of Radioactivity The Laws of Radioactive Decay Each radioisotope has a constant probability of decay. Cannot predict when a single atom will decay. Can predict how long it will take half of the atoms in a sample to decay = half life. Each radioisotope has a unique half life. Nothing changes the half life. Not Pressure Not Temperature Not Magnetism Radiometric Dating of Rocks During formation of Igneous and Metamorphic Rocks... Parent atoms are trapped during crystallization of minerals. Blocking temperature - mineral becomes a closed system. The clock starts as daughter atoms form and remain trapped in the rock. Zircon

Zircon grain T = 0 half lives (rock crystallizes, blocking temperature reached) T = 1 half life (1 billion years old) T = 2 half lives (2 billion years old) T = 3 half lives (3 billion years old) Mass spectrometer - counts number of atoms of each isotope in a mineral sample. Decay series useful for dating rocks Parent Isotope Half Life Stable Daughter! Effective Age Range ranium 238! 4.5 Ga! Lead 206! > 100 Ma ranium 235!.7 Ga! Lead 207! > 100 Ma Thorium 232! 14 Ga! Lead 208! > 200 Ma Rubidium 87! 48.8 Ga! Strontium 87! > 100 Ma Potassium 40! 1.25 Ga! Argon 40! > 100,000 yr Carbon 14! 5,730 yr! Nitrogen 14! 0-80,000 yr Lead - Lead dating: Ratio 207 206 increases with increasing age.

Possible Sources of Error # Daughter # Parent = Age Loss of some parent atoms? Sample appears older than it actually is. Loss of some daughter atoms? Sample appears younger than it actually is. Addition of some parent atoms? (contamination) Sample appears younger than it actually is. Addition of some daughter atoms? (contamination) Sample appears older than it actually is. How to check the accuracy of radiometric dates Date many samples from different places within the same rock layer. All dates should be similar. se two different isotope series to date the same rock. Both dates should be the same. When different samples or isotope series give similar dates for a rock layer, the dates are called concordant. The accuracy of radiometric dates is limited by experimental error and the sensitivity of the instrumentation. Radiometric dates are usually reported as + / some uncertainty. For example 208 +/ 2 Ma Radiometric dates are used to calibrate the relative time scale based on fossils to absolute time.

Sedimentary strata with Early Cretaceous Age fossils Bentonite (volcanic ash layer) = 105.6 my Sedimentary strata with Early Cretaceous Age fossils Radiocarbon Dating Radioactive 14 C isotope Commonly used method to date organic material. Tissue, wood, bone, tooth, shell, hair, cloth. Works for samples younger than 80,000 years old. Often used in archeology to date artifacts. Radiocarbon Dating Cosmic rays n p 14 14 14 N 14 C + O 2 = 14 14 14

Radiocarbon Dating 14 / 12 shell photosynthesis 14 14 14 12 12 12 Radiocarbon Dating Metabolic activity continually replaces carbon in living tissue. Maintains same 14 / 12 ratio in atmosphere. Replenishment stops at death. Supply of 14 C begins to decay. Atmospheric ratio 14 12 Count number of radioactive decay events per minute. Compare to a standard of known age. 0 80,000 years

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