Some elements have atoms which are unstable. These atoms spontaneously transmutate from one element to another. These types of transmutations include.

Slides:



Advertisements
Similar presentations
CHAPTER 24 Nuclear Energy I. Radioactivity (p ) I. Radioactivity (p )
Advertisements

CHAPTER 22 Nuclear Chemistry
Radioactive Decay. - Alpha Decay The emission of an particle from the nucleus of an atom is called alpha decay An alpha particle is just a helium nucleus.
Radiometric Dating Half-life.
Radioactivity and Half-Life
Hosted By Tristan Holmgren and Adam Belmnahia Radiation Transmutations Half-Life Uses and dangers of radio isotopes
Half Lifes. Atoms Proton Electron Cloud Neutron Atomic Number Number of protons – change this → change the element Hydrogen has one proton and one electron.
Radioactivity Polonium and radium X-Rays
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.
Atomic Symbols and Isotopes
Half Lifes. Atoms Proton Electron Cloud Neutron Atomic Number Number of protons – change this → change the element Hydrogen has one proton and one electron.
Nuclear Energy. Nuclear energy is all around us and can be used for medical purposes. Nuclear energy is when an atom is split and releases energy or particles.
AM 1 and AM 2 Review.
Radioactive Isotope Isotope which is unstable. It emits radiation & changes into another kind of atom.
Chapter 18.  Mass # Symbol  Element Name or symbol – Mass #  Parts of a Reaction Reactants  Products.
Nuclear Reactions Li 3 6 Protons and neutrons are held together in nucleus by the strong force. The strong force is strong enough to cancel out the electrical.
Chapter 25 Review Solutions. Which of the following particles cannot be stopped by metal foil? a. Alphab. Betac. Gamma.
Nuclear Chemistry.
What is it to be Radioactive? Radioactive decay is the process in which an unstable atomic nucleus loses energy by emitting radiation in the form of particles.
Radioactivity Nuclear Chemistry. Discovery of Radioactivity Wilhelm Roentgen discovered x-rays in Henri Becquerel discovered that uranium salts.
Nuclear Chemistry Types of Radiation Decay Equations.
Radioactive Isotopes and Half Life 1. What is a Radioactive Isotope? What is Radioactive Decay? What is Half Life? 2.
Chapter 9 Nuclear Chemistry. What is nuclear chemistry? Nuclear chemistry is all about what happens in the nucleus of an atom. In nuclear chemistry, neutrons.
Review. What type of decay will happen if the nucleus contains too many neutrons? Beta Decay.
Nuclear Chemistry Ch. 21. Radioactive Emissions Alpha decay – He nucleus What product is formed when radium-226 undergoes alpha decay? What element undergoes.
 Chemical Properties  Determined by ▪ number of electrons ▪ positions of electrons.
Nuclear Chemistry Chapter 21.
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.
Radioisotopes The nuclei of some atoms are unstable and undergo spontaneous changes called radioactive decay. One such change is called beta decay. During.
Radioactive Decay Read pages THE STRONG NUCLEAR FORCE STRONG NUCLEAR FORCE Atoms are held together by.
Nuclear Chemistry Isotopes-Review ► Isotopes are atoms of the same element that have the same # of protons but different # of neutrons or mass. X Atomic.
Masses of Atoms. Atomic Mass  Remember that Protons and Neutrons are much bigger than an Electron.  Because of this, the nucleus contains the majority.
Nuclear Chemistry Objective: To explain the process of radioactive decay using nuclear equations and half life Essential Question: How do unstable (radioactive)
Radioactivity.
Nuclear Chemistry The Atom The atom consists of two parts: 1. The nucleus which contains: 2. Orbiting electrons. protons neutrons Multiple nuclei is.
1 Nuclear Chemistry 2 The stability of the atom The vast majority of all atoms are incredibly stable and their nucleus never changes. However, a small.
Section 3: Radioactive Decay and Half-Life.  The spontaneous emission of rays or particles from certain nuclei as they “decay,” such as Uranium.  These.
CHAPTER 22 Nuclear Chemistry
Section 19.1 Radioactivity 1.To learn the types of radioactive decay 2.To learn to write nuclear equations for radioactive decay 3.To learn how one element.
Radioactive Decay A series of reactions that starts with an unstable nucleus and results in a stable nucleus Transmutation- the conversion of one element.
Dating Rocks and Remains Radioactive Decay: Vocabulary Half-Life: The amount of time it takes for half of a radioactive isotope to decay. Radioactive.
C. Johannesson CHAPTER 22 Nuclear Chemistry II. Radioactive Decay (p ) II. Radioactive Decay (p ) I IV III II.
Nuclear Chemistry. Reactions Chemical Involve electrons Affected external factors (temp, pressure, catalyst) Nuclear Involve the nucleus Release WAY more.
D AILY SCIENCE Write the following elements using short hand notation: 1. Helium 2. Tin 3. Zinc 4. Chlorine 5. Tungsten.
Radioactive Decay Quick Review Atom made of 3 subatomic particles Protons (positive, inside nucleus) Protons (positive, inside nucleus) Electrons (negative,
Absolute Age Dating. Geological Time Absolute time – putting dates on geological events using radiometric dating and other techniques.
Radioactive Decay.
Example 1 Using Zero and Negative Exponents a. 5 0
Nuclear Chemistry. The Atom The atom consists of two parts: 1. The nucleus which contains: 2. Orbiting electrons. protons neutrons.
Nuclear Transformations Objectives: 1. What determines the type of decay a radioisotope undergoes? 2. How much of a sample of a radioisotope remains after.
Nuclear Equations.
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.
TOPIC: RadioactivityTOPIC: Radioactivity & Natural Transmuations Do Now: Where on your reference table can you find radioactive particles?
Introduction to Nuclear Chemistry Chapter 19. I. Study of Nuclear Reactions Nuclear Reactions vs. Chemical Reactions Define “ Chemical Reaction”?
NUCLEAR CHEMISTRY OBJECTIVE: TO EXPLAIN THE PROCESS OF RADIOACTIVE DECAY USING NUCLEAR EQUATIONS AND HALF LIFE Essential Question: How do unstable (radioactive)
Atoms and Isotopes What are atoms, isotopes, and radioactive decay?
Types of Radioactive Decay Kinetics of Decay Nuclear Transmutations
Daniel Bonilla 2/2/10 1.  Characteristics of the Atom  Particle Calculations  Applications of Elements  Periodic Table  Compounds 2.
 The spontaneous emission of radiation › Created by unstable nuclei of very heavy elements › Radioactive elements can give off 3 types of radiation:
Chapter 21 Section 2 Radioactive Decay Radioactive Decay.
Nuclear Decay. Radioactivity The emission of high-energy radiation or particles from the nucleus of a radioactive atom.
Nuclear Chemistry Determining Half-Life. Types of Radiation  Alpha particle (  )  helium nucleus paper 2+  Beta particle (  -)  electron 1- lead.
Radioactive Decay. Types of Radioactive Decay Alpha Decay: nucleus eject an alpha particle (made of 2 protons and 2 neutrons – a helium nucleus)
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.
Unstable Nuclei and Radioactive Decay Radioactivity – spontaneous emission of radiation Radiation – rays and particles emitted from a radioactive material.
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.
CHAPTER 24 Nuclear Energy
Presentation transcript:

Some elements have atoms which are unstable. These atoms spontaneously transmutate from one element to another. These types of transmutations include beta decay, electron capture and alpha decay. Alpha decay involves the emission of a helium nucleus Th

Different radioactive isotopes decay at different rates. If 100 g of a radioactive material decays for 10 years and 50 g remains this substance is said to have a half life of 10 years. 5 y After 10 y only 50 g remain If 200 g of a radioactive material with a half-life of 5 years, is left to decay for 10 years how much of the original material is left? 200 g > 100 g > 50 g

If 200 g of a radioactive material with a half-life of 5 years, is left to decay for 10 years how much of the original material is left? 200 g > 200 g

If 200 g of a radioactive material with a half-life of 5 years, is left to decay for 10 years how much of the original material is left? 200 g > 100 g 100 g left after 5 years

If 200 g of a radioactive material with a half-life of 5 years, is left to decay for 10 years how much of the original material is left? 200 g > 100 g > 50 g 50 g left after 10 years

If 200 g of a radioactive material with a half-life of 5 years, is left to decay for 10 years how much of the original material is left? 200 g > 100 g > 50 g ----> 25g 25 g left after 15 years

Show the decay sequence for 512 g of a substance with a half-life of 25 da. 512 g

Show the decay sequence for 512 g of a substance with a half-life of 25 da. 256 g 512 g ---> 256 g 25 da

Show the decay sequence for 512 g of a substance with a half-life of 25 da. 128 g 512 g ---> 256 g ---> 128 g 25 da Total - 50 da

Show the decay sequence for 512 g of a substance with a half-life of 25 da. 64 g 512 g ---> 256 g ---> 128 g ---> 64 g 25 da Total - 75 da

Show the decay sequence for 512 g of a substance with a half-life of 25 da. 32 g 512 g ---> 256 g ---> 128 g ---> 64 g ---> 32 g 25 da Total da

Show the decay sequence for 512 g of a substance with a half-life of 25 da. 16 g 512 g ---> 256 g ---> 128 g ---> 64 g ---> 32 g 25 da Total da 16 g 25 da

Show the decay sequence for 512 g of a substance with a half-life of 25 da. 512 g ---> 256 g ---> 128 g ---> 64 g ---> 32 g 25 da Total da 16 g 25 da 8 g 25 da

Show the decay sequence for 512 g of a substance with a half-life of 25 da. 512 g ---> 256 g ---> 128 g ---> 64 g ---> 32 g 25 da Total da 16 g 25 da 4 g 8 g 25 da 4 g 25 da

Show the decay sequence for 512 g of a substance with a half-life of 25 da. 512 g ---> 256 g ---> 128 g ---> 64 g ---> 32 g 25 da Total da 16 g 25 da 2 g 8 g 25 da 4 g 25 da 2 g 25 da

Show the decay sequence for 512 g of a substance with a half-life of 25 da. 512 g ---> 256 g ---> 128 g ---> 64 g ---> 32 g 25 da Total da 16 g 25 da 1 g 8 g 25 da 4 g 25 da 2 g 25 da 1 g 25 da

If U-235 has a half-life of 7.1 x 10 8 y. How many years would it take 32 g to decay to 2 g? 32 g --> 16 g --> 8 g --> 4 g --> 2 g 4 half lifes 2.84 x 10 9 y. Cs-136 has a half-life of 13 da. If 1024 g was left to decay for 65 da how much of the original material would be left? 65/13 = 5 hl 1024 g -> 512 g -> 256 g -> 128 g -> 64 g -> 32 g or 1024 g x (1/2) 5 = 32 g

To find the quantity of material remaining use this formula Mass remaining = Original Mass x 1 2 # of Half-lives Pb-212 has a half-life of 10.6 h. If 12.5 g of Pb-212 is left for 84.8 h how much of the original material is left? Mass remaining = Original Mass x 1 2 # of Half-lives 12.5 g x (0.5) 84.8/10.6 = g

Feedback: Privacy Policy Feedback
Do Not Sell My Personal Information
About project: SlidePlayer Terms of Service

© 2024 SlidePlayer.com Inc. All rights reserved.