Applications of Kinetics Edward A. Mottel Integrated, First-Year Curriculum in Science, Engineering and Mathematics.

Slides:

Advertisements

Similar presentations

Section 12.2: Chemical Calculations

Advertisements

Section 12.2: Chemical Calculations

Nuclear Chemistry and Radioactivity

Name: Date: Read temperatures on a thermometer Independent / Some adult support / A lot of adult support

Radioactive Isotopes and Half Life

HIGHER GRADE CHEMISTRY CALCULATIONS Radioactivity and Half-Life Half-life is the time taken for half of a radioisotope to decay. This value is constant.

Section 1: What is Radioactivity?

Place Value and Expanded Form

Integrated Rate Law.

Absolute Dating Radioactive Dating. Radioactivity Almost all of the elements contain radioactive isotopes Isotopes are atoms of the same element with.

Absolute Dating. J F M A M J J A S O N D J Earth Forms Earth Cools First Life Abundant Oxygen Multicellular Organisms Plants and Animals Dinos Humans.

Geologic Dating!.

... or how to make sense out of Ch. 8 of the text... Prehistoric Cultures Tim Roufs section ©2009 Class Slides Set 10A Special Skills Used to Study Early.

Radiometric Dating and Half Life

Half-Life Pg Half-Life Half-life = the time needed for half of the radioisotope sample to decay into products Half-live can have varying lengths.

Radiometric Dating Timothy G. Standish, Ph. D..

LOJ Feb 2004 Radioactivity 6 Half Life LOJ Feb 2004 Half Life The half-life of a radioactive substance: is the time it takes for the number of parent.

Radiocarbon Dating.

Chapter 8 Section 2 Handout

Earth Science Chapter 21 Section 3

Radioactivity and radioisotopes

Carbon-14 Dating Carbon dating is a variety of radioactive dating which is applicable only to matter which was once living and presumed to be in equilibrium.

ABSOLUTE AGE IS EXPRESSED IN SPECIFIC UNITS, SUCH AS YEARS BEFORE PRESENT. ONE METHOD OF ABSOLUTE DATING IS COUNTING THE ANNUAL LAYERS OF GLACIAL LAKE.

Radiometric Dating Half-life.

EARTH HISTORY Chapter 6 review.

Radioactive Dating with Carbon

ABSOLUTE AGE Absolute dating- used to determine the age of a rock or fossil more exactly based on the properties of atoms An atom:

Methods of Dating Absolute and Relative.

21.3 – Absolute-Age Dating Objectives

Formation of Earth/Moon & Geologic Dating Review

Radioactive Dating D.3.1 Outline the method for dating rocks and fossils using radioisotopes, with reference to 14C and 40K.

Radioactive dating.

It can be difficult to determine the ages of objects by sight alone. e.g. It can be difficult to tell which students in a classroom are oldest. Radioactivity.

THE GEOLOGIC TIME SCALE: THE HISTORY OF EARTH

By: HULK And Bruce Banner

Unit 1.3 Nuclear Chemistry

Absolute Dating of Rocks and Fossils.

ABSOLUT DATING Explanations collected from three online presentations.

Detecting Radiation A Geiger counter is the most familiar tool for detecting radiation. A Geiger counter is the most familiar tool for detecting radiation.

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

College Algebra & Trigonometry

Exponential Growth or Decay Function

HALF-LIFE Chapter 7.2 – BC Science 10.

Gas Clicker quiz.

Absolute Dating.

CHEM Pharmacy Week 11: Kinetics - Half Life

Stoichiometry Chapter 12.

Chemistry came to be because people wanted to create gold from other elements. There is no “Chemical Reaction That will do this” Chemical reactions involve.

Mass of individual atoms Lesson 1 – introduction to project and atomic structure.

Chapter 11 Preview Multiple Choice Short Answer Extended Response

Applications of Kinetics Edward A. Mottel Department of Chemistry Rose-Hulman Institute of Technology.

Absolute Dating of Rocks and Strata

Section 7.4: Exponential Growth and Decay Practice HW from Stewart Textbook (not to hand in) p. 532 # 1-17 odd.

7.2 Half-Life the time it takes for half of a radioactive sample to decay is a constant rate (always the same half life for each element) Example: Strontium-90.

1 Beta Emissions (Principles of Carbon Dating). 2 Radiation - Energy emitted in the form of waves (light) or particles (photons). Beta Radiation: emits.

Section 10–2: Rates of Nuclear Decay Physical Science Coach Kelsoe Pages 298–301.

Chapter 8 Section 2 Handout

Chapter 7.2 – Half life Science 10. Types of decay Alpha Alpha.

The Carbon Cycle Carbon Dating- Application of Half Life! All living things contain carbon, some of it is Carbon-14 Carbon-14 is radioactive (unstable)

Radiometric Dating.

How to do Half Life Calculations

Absolute Dating Radioactive Dating.

Measuring the speed of radioactive decay

Chemical Kinetics The First Order Integrated Rate Equation

Measuring the speed of radioactive decay

How can we explain absolute dating?

These stone tools from the archaeological site in Cactus Hill, Virginia, are at least 15,000 years old. Scientists estimated the age of the site based.

Presentation transcript:

Applications of Kinetics Edward A. Mottel Integrated, First-Year Curriculum in Science, Engineering and Mathematics

Please Sit with Your Group Please be sure each member of your team has a copy of Applications of Kinetics Lecture Notes Todays reporter is the person with the largest pet.

6/5/2014 Kinetics Applications Comparison of orders of reaction rates of reaction Half-life Percentage Completion Nuclear dating processes

Orders of Reaction On a graph of concentration versus time, plot zero, first and second order data sets that have the same initial concentration and the same numeric value for the rate constant. Will the lines ever cross? Describe the shape of each line and interpret the line shape.

Reaction Rate Constants On a graph of concentration versus time, plot a system with the same reaction order, but with three different numeric values for the rate constant. The second rate constant should be twice the first rate constant, and the third rate constant should be ten times the first rate constant. Will the lines ever cross? Describe the shape of each line and interpret the line shape.

6/5/2014 Half-Life The half-life of a reaction is the time required for a given amount of a reactant to be consumed. Could be a concentration or a pressure. Can be determined either graphically or analytically.

6/5/2014 Graphical Determination of Half-Life 2 NO 2 (g) 2 NO(g) + O 2 (g) Determine if the half-life for the decomposition of nitrogen dioxide is constant Time (s) PNO2 (torr) 474 torr 237 torr 139 s 118 torr = 278 s

6/5/2014 Half-Life and Percentage Completion The half-life equation is derived from the integrated solution of the rate equation. Percentage completion calculations are similar, using appropriate initial and final amounts of reactant.

6/5/2014 NO 2 Decomposition is Second-Order (P NO2 ) t - 1 = 1.52 x (t - t o ) + (P NO2 ) o time until the first half-life t = 139 s Determine the second half-life for NO 2. t = 278 s

6/5/2014 Percentage Completion Use the integrated form of the rate equation to determine the amount of time required for the reaction to be 80% completed from the original reaction conditions. Confirm your answer using the graph.

6/5/2014 If 80% of the nitrogen dioxide is decomposed, then 20% remains Time (s) PNO2 (torr) 474 torr 95 torr 555 s Graphical Determination of Percent Completion 2 NO 2 (g) 2 NO(g) + O 2 (g)

Alcohol Evaporation at Room Temperature Time (s) Mass (g) Ethanol y = x R 2 = Determine if the half-life for the evaporation of ethanol is constant.

6/5/2014 Radioactive Dating First-order kinetic processes have constant half-lives. Can you prove this? Almost all radioactive processes are first-order. This allows "dating" of objects if such a first-order process is occurring.

6/5/2014 Radioactive Dating 131 I (mg) Percent Reacted ½ 93¾ Period Time (d) Time Change (d) 8.1

6/5/2014 Radioactive Dating The length of the dating "window" depends on the half-life of the process. A practical limit is about 0.1 to 10 half-lives. How much of a reactant remains after 0.1 half-lives 10 half-lives Why does this dating "window" exist?

6/5/2014 Radioactive Processes Radioactive Species ReactionHalf-LifeApplications 3H3H 3 H 3 He ytracer studies 14 C5730 y dating of former living artifacts 234 U2.47 x 10 5 y 238 Uage of rocks 14 C 14 N U 230 Th + 4 He 238 U 234 Th + 4 He 4.51 x 10 9 y

6/5/2014 Carbon-14 Dating 14 C is produced in the upper atmosphere by the bombardment of 14 N with cosmic rays.

6/5/2014 Carbon-14 Dating The carbon-14 produced reacts to form carbon dioxide, consumed by plants which are eaten by animals. Every living thing has carbon-14 in it, but the ingestion process stops at death. The ratio of the amount of carbon-14 when measured to the amount expected while alive can be used to estimate the age of the organism.

6/5/2014 Carbon-14 Dating What assumptions are implicit in this dating process?

6/5/2014 Atomic Clocks Radioactive dating has been used to estimate the age of rocks. If the age of the earth is about 4.5 x 10 9 years, why does a typical uranium sample contain mostly 238 U and a small amount of 235 U, but virtually no 234 U?

6/5/2014