Presentation is loading. Please wait.

Presentation is loading. Please wait.

Fission Track Dating Stephanie Owens July 27, 2006 Nuclear and Radiochemistry Summer School 2006.

Published byShon Jenkins Modified over 8 years ago

Similar presentations

Presentation on theme: "Fission Track Dating Stephanie Owens July 27, 2006 Nuclear and Radiochemistry Summer School 2006."— Presentation transcript:

1 Fission Track Dating Stephanie Owens July 27, 2006 Nuclear and Radiochemistry Summer School 2006

2 Performed on etchable, transparent solids: Minerals, glass, petrified wood, sediment, meteorites Comparable to the K-Ar dating method Fission tracks were first observed in mica in 1962 Provides cooling age of a material NOT absolute age Tracks form as a result of spontaneous fission, usually 238 U Introduction

3 Materials

4 Assumptions Uranium must be homogenous throughout the sample and greater than 0.1 ppm. Lattice structure of the solid must be intact excluding track damage. Chemical weathering must not cause loss of tracks or uranium. Induced fission tracks of 235 U must not significantly contribute to total tracks. 238 U is most significant fission species. The decay constant for spontaneous fission of 238 U is known.

5 Track Formation

6 Calculation of Age Decay constant for spontaneous fission Density of 238 U fission tracks Density of 235 U induced fission tracks Track densities of the sampleTrack densities of the standard

7 Materials and Time Range

8

9

10

11

12 Seafloor Spreading

13 Meteorites 244 Pu

14 Fission Track Dating Stephanie Owens July 27, 2006 Nuclear and Radiochemistry Summer School 2006

Download ppt "Fission Track Dating Stephanie Owens July 27, 2006 Nuclear and Radiochemistry Summer School 2006."

Similar presentations

The Fossil Record Chapter 17.1.

The Fossil Record Chapter 17.1.
Radiometric Dating: General Theory The radioactive decay of any radioactive atom is an entirely random event, independent of neighboring atoms, physical.

Radiometric Dating: General Theory The radioactive decay of any radioactive atom is an entirely random event, independent of neighboring atoms, physical.
Dating Techniques Four Categories –Radio-isotope methods –Paleomagnetic methods –Organic/inorganic chemical methods –Biological methods.

Dating Techniques Four Categories –Radio-isotope methods –Paleomagnetic methods –Organic/inorganic chemical methods –Biological methods.
Radiometric Dating and Half Life

Radiometric Dating and Half Life
Dating with Radioactivity

Dating with Radioactivity
The U-series Disequilibrium Method of Dating

The U-series Disequilibrium Method of Dating
Dating the Earth’s Rocks

Dating the Earth’s Rocks
21.3 – Absolute-Age Dating Objectives

21.3 – Absolute-Age Dating Objectives
RADIOACTIVE ELEMENTS HAVE A PROVEN CONSTANT DECAY RATE RADIOACTIVE ELEMENTS HAVE A PROVEN CONSTANT HALF-LIFE NECESSARILY, A DATABLE MATERIAL MUST.

RADIOACTIVE ELEMENTS HAVE A PROVEN CONSTANT DECAY RATE RADIOACTIVE ELEMENTS HAVE A PROVEN CONSTANT HALF-LIFE NECESSARILY, A DATABLE MATERIAL MUST.
FOSSILS.

FOSSILS.
3-1 CHEM 312: Lecture 3 Radioactive Decay Kinetics Outline Readings: Modern Nuclear Chemistry Chapter 3; Nuclear and Radiochemistry Chapters 4 and 5 Radioactive.

3-1 CHEM 312: Lecture 3 Radioactive Decay Kinetics Outline Readings: Modern Nuclear Chemistry Chapter 3; Nuclear and Radiochemistry Chapters 4 and 5 Radioactive.
Fossils Mr. Skirbst Earth Science Topic 24. Fossils The preserved remains or evidence of a living thing.

Fossils Mr. Skirbst Earth Science Topic 24. Fossils The preserved remains or evidence of a living thing.
The fossil Record.

The fossil Record.
Nuclear Reactions Fission and Fusion.

Nuclear Reactions Fission and Fusion.
Radioactivity and Nuclear Reactions

Radioactivity and Nuclear Reactions
FACTORS AFFECTING ISOTOPIC DATING Works best when a rock or mineral represents a “closed” system. Parent and daughter isotopes cannot move in or out of.

FACTORS AFFECTING ISOTOPIC DATING Works best when a rock or mineral represents a “closed” system. Parent and daughter isotopes cannot move in or out of.
Geologic time. Goal to understand how we determine relative and numerical ages of geologic events.

Geologic time. Goal to understand how we determine relative and numerical ages of geologic events.
Time and Geology Quantitative Geologic Time Early Attempts Tried to place events in chronology of actual age James Ussher, Archbishop of Armagh and Primate.

Time and Geology Quantitative Geologic Time Early Attempts Tried to place events in chronology of actual age James Ussher, Archbishop of Armagh and Primate.
Radiogenic Isotope Geochemistry II

Radiogenic Isotope Geochemistry II
Introduction to Physical Science Monday, Wednesday, Thursday Tom Burbine

Introduction to Physical Science Monday, Wednesday, Thursday Tom Burbine

Similar presentations

Ads by Google