Nuclear Chemistry: Half-Life. Half Life Definition = time it takes for half of a radioactive sample to decay; describes rate of decay The stability of.

Slides:

Advertisements

Similar presentations

Mr. ShieldsRegents Chemistry U02 L03 Nuclear Decay Series Uranium has an atomic number greater than 83. Therefore it is naturally radioactive. Most abundant.

Advertisements

Radioactivity and Half-Life

Nuclear Chemistry Unstable Nuclei and Radioactive Decay.

When the nucleus of an atom breaks down to form a different element.

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.

Aim: What is the half-life of a radioisotope Do Now:

Nuclear Chemistry & Radioactive Decay. Nuclear Chemistry Defined Changes occurring WITHIN the nucleus of an atom Atomic nuclei often emit particles or.

Nuclear Chemistry. Nuclear Chemistry Objectives Students will be able to identify what radioisotopes are and why they undergo radioactivity. Students.

1.3 Exponential Functions. Exponential Growth Exponential Decay Applications The Number e …and why Exponential functions model many growth patterns. What.

Transfer of energy by electromagnetic waves. Spontaneous emission of radiation when the nucleus of an atom breaks down to form a different element.

Chapter 25 Review Solutions. Which of the following particles cannot be stopped by metal foil? a. Alphab. Betac. Gamma.

1 Chapter 9 Nuclear Radiation Copyright © 2009 by Pearson Education, Inc. 9.4 Half-Life of a Radioisotope 9.5 Medical Applications Using Radioactivity.

Nuclear Chemistry.

Exponential Functions Section 1.3. Exponential Functions f(x) = a x Example: y 1 = 2 x y 2 = 3 x y 3 = 5 x For what values of x is 2 x

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

Half-Life Nuclear Chemistry. What is Half-Life? The time it takes for half of a given amount of a radioactive isotope to undergo decay.

Warm Up Where are the biggest atoms on the periodic table? 2.Arrange the following elements in increasing electronegativity: Cl, As, Sn 3.Which.

Half Life Practice.

Radioactive Isotopes and Half Life 1. What is a Radioactive Isotope? What is Radioactive Decay? What is Half Life? 2.

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.

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.

Chapter 4.1. Half-Life Original Sample One half-life Two half-lives Three half-lives Contains a certain One-half of the One-fourth of One-eight of the.

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.

Do Now: Think about this… If you were standing 10 feet from the wall, and I asked you to walk half the distance to the wall, how close would you be? If.

CHAPTER 21 NUCLEAR CHEMISTRY. NUCLEUS NUCLEONS ARE MADE UP OF PROTONS AND NEUTRONS NUCLIDE IS AN ATOM IDENTIFIED BY THE NUMBER OF PROTONS AND NEUTRONS.

End Show Slide 1 of 40 Copyright Pearson Prentice Hall 17-1 The Fossil Record.

Nuclear Chemistry Objective: To explain the process of radioactive decay using nuclear equations and half life Essential Question: How do unstable (radioactive)

Tips on Dating. Why Date? Different methods of dating will help determine the actual age of a layer of rock or a fossil Scientists look at how much radioactive.

Nuclear Chemistry Chapter 25. What do you think of when you hear Nuclear Chemistry?

Spontaneous emission of radiation when the nucleus of an atom breaks down to form a different element.

Section 3: Radioactive Decay and Half-Life.  The spontaneous emission of rays or particles from certain nuclei as they “decay,” such as Uranium.  These.

ENERGY UNIT Learning Goal #4: Understand the meaning of half-life and be able to determine graphical data relating to half-life and age of a radioactive.

Radioactive Decay A series of reactions that starts with an unstable nucleus and results in a stable nucleus Transmutation- the conversion of one element.

C. Johannesson CHAPTER 22 Nuclear Chemistry II. Radioactive Decay (p ) II. Radioactive Decay (p ) I IV III II.

Radioactive Dating Chapter 7 Section 3.

Nuclear Chemistry. Reactions Chemical Involve electrons Affected external factors (temp, pressure, catalyst) Nuclear Involve the nucleus Release WAY more.

Absolute Dating.

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

General, Organic, and Biological Chemistry Fourth Edition Karen Timberlake 4.4 Half-life of a Radioisotope Chapter 4 Nuclear Chemistry © 2013 Pearson Education,

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

ICP Half-Life Centsium Lab 10/1/12. Warmup 1)Which is more stable? A sample with a half- life of one day, or a sample with a half-life of one week? 2)Write.

Rates of Nuclear Decay Chapter 10 Section 2 Pg

Radioactive Decay.

Do Now Which nuclear emission has the greatest mass and the least penetrating power? an alpha particle 2. a beta particle a neutron 4. a positron When.

Example 1 Using Zero and Negative Exponents a. 5 0

24.1 Radioisotopes. Definitions Radioisotope: (short for “radioactive isotope”) an isotope of an atom that emits radiation Half-life: the time it takes.

QOTD How do we measure the stability of an atom?.

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.

Introduction to Nuclear Chemistry Chapter 19. I. Study of Nuclear Reactions Nuclear Reactions vs. Chemical Reactions Define “ Chemical Reaction”?

Radiation and the Environment Nuclear Changes. Fission vs. Fusion.

NUCLEAR CHEMISTRY OBJECTIVE: TO EXPLAIN THE PROCESS OF RADIOACTIVE DECAY USING NUCLEAR EQUATIONS AND HALF LIFE Essential Question: How do unstable (radioactive)

Unit: Nuclear Chemistry Half-Life Day 2 – Notes. After today you will be able to… Identify the factor that nuclear stability is dependent on. Calculate.

1.3 Exponential Functions. Slide 1- 2 Exponential Function.

Nuclear Reactions. Nuclear Symbols Element symbol Mass number (p + + n o ) Atomic number (number of p + )

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

Chapter 21 Section 2 Radioactive Decay Radioactive Decay.

UNIT 7 NUCLEAR REACTIONS 7.3 Calculating Half Life? May 17, 2011 DO NOW: = /4.5 = If we start with 4.5 grams of Radon-222 and over a period.

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

Nuclear Stability and Decay More than 1500 different isotopes are known. Of those, only 264 are stable and do not decay over time. One factor that affects.

Fission and Fusion Nuclear Chain Reactions. Nuclear Fission Fission means to split apart… the nucleus breaks into smaller fragments Uranium-235 and Plutonium-239.

Nuclear Chemistry Determining Half-Life. Types of Radiation  Alpha particle (  )  helium nucleus paper 2+  Beta particle (  -)  electron 1- lead.

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

Radioactive Decay. Types of Radioactive Decay Alpha Decay: nucleus eject an alpha particle (made of 2 protons and 2 neutrons – a helium nucleus)

Do Now  Write down anything about which you are unclear for the following topics:  Atomic Theory  Nuclear Chemistry  Electron configurations.

Masses of Atoms and the Periodic Table. Atomic number To identify which element an atom is, we look at the number of protons. The number of protons in.

Nuclear Stability and Decay 1500 different nuclei are known. Only 264 are stable and do not decay. The stability of a nucleus depends on its neutron-to-

NUCLEAR CHEMISTRY Chapter 20. Nuclear Chemistry Radioactivity is the emission of subatomic particles or high- energy electromagnetic radiation by the.

Drill – 10/19 How many grams of Cesium are 8.5x10 29 atoms?

Presentation transcript:

Nuclear Chemistry: Half-Life

Half Life Definition = time it takes for half of a radioactive sample to decay; describes rate of decay The stability of the isotope is what determines the rate of decay. Less Stable = faster decay

Half-Life After each half-life, half of the sample decays. Start = 100% – 40 blue particles are present 1 half-life = 50% – 20 blue remain 2 half-lives = 25% – 10 blue remain 3 half-lives = 12.5% – 5 blue remain 4 half-lives = 6.25% – 2.5 blue remain

Half-Life Amount never becomes zero After 10 half-lives sample considered nonradioactive because it approaches the level of background radiation. Because the amount never reaches zero, radioactive waste disposal and storage causes problems. Would you want radioactive waste in your community?