The Random Nature of Radioactive Decay

Slides:

Advertisements

Similar presentations

Do Now read page Please open your books to show your half life graphs.

Advertisements

IAEA International Atomic Energy Agency Radioactivity - 1 Radioactive Decay Day 1 – Lecture 4.

6.2 Growth and Decay Law of Exponential Growth and Decay C = initial value k = constant of proportionality if k > 0, exponential growth occurs if k < 0,

Radioactive Decay Nuclear Physics Lesson 5. Learning Objectives Explain what is meant by the term half-life. Explain what is meant by the term half-life.

Half-Life Noadswood Science, 2012.

Nuclear Instability.

 So far we’ve studied chemical reactions where only electrons have changed.  Chemical properties are determined by electrons! › Nucleus was not primarily.

Half Life After one half life half of a sample is left. After 4 half-lives ___ is left. A.1/2 B.1/4 C.1/8 D.1/16.

Radioactivity – decay rates and half life presentation for April 30, 2008 by Dr. Brian Davies, WIU Physics Dept.

PH 103 Dr. Cecilia Vogel Lecture 23. Review Outline  Nuclei   decays  Radiation damage  Nuclear physics  exponential decay  decay constant.

What are we doing today Decay Types of Radiation Properties of nuclear radiation Decay and Probability Protactinium.

Section 1: What is Radioactivity?

Using the half – lives of radioactive elements. In this presentation we will learn: 1.That there is an isotope of carbon that is useful for dating materials.

Nuclear Fission Half-lives, reactions and energy.

Exponential Growth & Decay Modeling Data Objectives –Model exponential growth & decay –Model data with exponential & logarithmic functions. 1.

Logarithmic, Exponential, and Other Transcendental Functions Copyright © Cengage Learning. All rights reserved.

Preview Key Ideas Bellringer Nuclear Radiation Nuclear Decay Math Skills Radioactive Decay Rates SECTION 1: WHAT IS RADIOACTIVITY?

Topic : Nuclear Physics

Reading Assignment: pp

Nuclear Chemistry Ch 18, Pg 666, # 1-8

Radioactivity Prepared by: Timothy John D. Matoy.

The Mystery of Half- Life and Rate of Decay The truth is out there... BY CANSU TÜRKAY 10-N.

Unit 2: The Atom Half- Life. Half Life The time required for one half of the nuclei of a radioactive isotope sample to decay to atoms of a new element.

Radioactive Half-Lives. perform simple, non-logarithmic half life calculations. graph data from radioactive decay and estimate half life values. graph.

Half-LIFE It’s impossible to know exactly when an unstable atom will decay. We can however predict how many will decay in a period of time. A half-life.

ICP 9/28/12 Half-life. Warmup Write a balanced nuclear equation for the alpha decay of Uranium-238.

Review. What type of decay will happen if the nucleus contains too many neutrons? Beta Decay.

Using calculus, it can be shown that when the rate of growth or decay of some quantity at a given instant is proportional to the amount present at that.

Section 4.2 Logarithms and Exponential Models. The half-life of a substance is the amount of time it takes for a decreasing exponential function to decay.

AP Calculus Ms. Battaglia. The strategy is to rewrite the equation so that each variable occurs on only one side of the equation. This strategy is called.

The Theory of Radioactive Decay Nuclear Physics Lesson 7.

Radioactive Decay Alpha, Beta, and Gamma Decay. Radioactivity Emission of particles and energy from the nucleus of certain atoms This happens through.

Unit 3 Nuclear. Go to question What is the result of an atom losing an alpha  particle? a.The atomic number increases and the mass number.

Differential Equations: Growth and Decay Calculus 5.6.

Radioactivity Decay Constant Activity Exponential decay By Hannah I. Terhorst.

Radioactivity and radioisotopes Half-life Exponential law of decay.

© JP 1 RADIOACTIVE DECAY 2 It is impossible to say when a particular nucleus will decay. It is only possible to predict what fraction of the radioactive.

Radioactive Decay Radioactive materials decay from the “Parent” material into the “Daughter Product”. Original “Parent” Material Daughter Product.

Half Life Calculation of Radioactive Decay Atomic Physics.

Wednesday, November 4 th, 2015 The blue grid below represents a quantity of C 14. Each time you click, one half-life goes by and turns red. C 14 – blue.

Mrs: Aya Ahmed Abd alrahium saeed MSC &BSC Nuclear medicine

Exponential Growth & Decay Functions Recall from unit 1 that the graph of f(x) = a x (a>1) looks like y = a x As x   then y   but as x  -  then y.

Exponential Growth and Decay 6.4. Slide 6- 2 Quick Review.

Any population of living creatures increases at a rate that is proportional to the number present (at least for a while). Other things that increase or.

Section 1: What is Radioactivity?

Unit 3 Nuclear Chemistry. Go to question What is the result of an atom losing an alpha  particle? 6g of a radioactive isotope of 60 Co.

Chapter What is a nuclear reaction? 2. What are nucleons? Nuclides? Radionuclides? Radioisotopes? 3. What are the three main types of radiation?

Chapter 5 Applications of Exponential and Natural Logarithm Functions.

Nuclear Chemistry II. Radioactive Decay C. Half-Life II. Radioactive Decay C. Half-Life.

Radioactive Decay and Half-Life. The isotope Radium–228 undergoes beta decay as shown in the following equation:

5.3.3 Radioactivity.

6.4 Exponential Growth and Decay. The number of bighorn sheep in a population increases at a rate that is proportional to the number of sheep present.

22.2 Radioactive decay Radioactive decay and its random nature Why do radioactive substances emit nuclear radiation? This process is called radioactive.

After completing this topic you should be able to : State the half-life is the time taken for the activity or mass of a radioisotope to halve. State the.

CALCULATING HALF-LIFE Aim: How can we measure how much of a radioactive element decayed? DO NOW: If we start with 4.5 grams of Radon- 222 and over a period.

6.4 Exponential Growth and Decay Law of Exponential Change Continuously Compounded Interest Radioactivity Newton’s Law of Cooling Resistance Proportional.

Half Life It is impossible to predict when an individual atom will decay. Review of Half life If living creatures had half lives the way radioactive.

Exponential and Logarithmic Functions 4 Copyright © Cengage Learning. All rights reserved.

Example 1 Solve Using Equal Powers Property Solve the equation. a. 4 9x = – 4 x x23x = b. Write original equation. SOLUTION a. 4 9x 5 42.

M Manser Invicta Grammar School A2 PHYSICS Radioactivity By the end of this presentation you should be able to: Define the terms “activity” and “count.

2.3.9 radioactive decay.

6.4 Growth and Decay.

Nuclear Physics 5 Exponential Decay Friday, 16 November 2018

A –Level Physics: Nuclear Decay Half Life and Background Radiation

Time it takes for 1/2 of the radioactive atoms in a sample to decay.

Exponential decay State that radioactive decay is a random and spontaneous process and that the rate of decay decreases exponentially with time. Define.

73 – Differential Equations and Natural Logarithms No Calculator

Chemical Kinetics The First Order Integrated Rate Equation

Exam question (from last lesson)

How can we mathematically model a random process?

Presentation transcript:

The Random Nature of Radioactive Decay It is impossible to predict when an individual atom will decay. We do know that if we have twice as many, the rate of decay (dN/dt) will double. ie The minus sign indicates the decay. The constant of proportionality is called the decay constant  (what are its units?). (s-1) It is fixed for any particular nuclear decay. The rate of decay is measured in bequerel (Bq). 1 Bq = 1 decay per second.

The half life is the average time taken for half the nuclei to decay This is the exponential law of radioactive decay. This first order differential equation can be integrated to show that e is a pure number = 2.718 N is the number of particles left after time t N0 is the original number of particles. Radioactive Half-Life For a particular decay process, it will always take the same amount of time for the number of nuclei to halve. It could be from 100 to 50 or from 106 to 5x105. The half life is the average time taken for half the nuclei to decay

There is no known way of changing the half-life of a nuclide. eg. The half life of a substance is 2 years. How much will be left after 8 years? soln. 8 years = 4 half-lives so the number of particles left will be 1/2 x 1/2 x 1/2 x1/2 = 1/16th Note that if you do not have a whole number of half-lives, you must use the previous equation

t1/2 = 0.693 /  When one half life has passed, t = t1/2 and N = N0/2 so the equation becomes ie Taking natural logarithms of both sides we obtain: ln (1/2) = -t1/2 and so t1/2 = ln(2) /  t1/2 = 0.693 /  The count rate is often denoted as R and will be directly proportional to the rate of decay.

EXAMPLE Uranium 238 has a half life of 4.51 x 109 years. Calculate the number of particles of uranium 238 that will exist after 2.255 x 109 years from a sample of 1 kg. (NA = 6.02x1023 mol-1) Solution: We need the half life in seconds T1/2 = 4.51x109 x 365.25 x 24 x 60x60 = 1.423 x 1017s Notice that it is not a whole number of half lives so we have to use BUT we don’t know  - examiners frequently do this! Fortunately we know that t1/2 = 0.693 /  so  = 0.693 / t1/2 = 0.693 / 1.423 x 1017s  = 4.869 x 10 -18 s-1 t = 2.255x109 years = 2.225x109 x 365.25 x 24 x 3600 t = 7.1 x 1016 s = so = = = 0.707

The End ie 70.7% is left BUT how many were there to start with? so = = = 0.707 1 mole is 238g 238g is NA 0.238 kg is NA 1kg is NA / 0.238 = 6.02x1023 / 0.238 = 2.53 x 1024 particles The End