Warmup: review questions (3 minutes)

Slides:

Advertisements

Similar presentations

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.

Advertisements

Unit 2 Notes – Radioactivity

Unit 2 Notes – Radioactivity

-Different FORMS of an Element that occur Naturally -Have the SAME # of P and E but DIFFERENT # of N -Isotopes of an element have the SAME CHEMICAL PROPERTIES.

Radioactivity and Nuclear Reactions

Fundamental Forces of the Universe

Types of Radiation and Unstable Nuclei. I. Chemical and Nuclear Reactions Chemical reactions only involve an atom’s electrons Nuclear reactions involve.

By: Kerem ERYILMAZ Adnan ÖZTÜREL. Chemical reactions all involve the exchange or sharing of electrons, they never have an influence on the nucleus of.

NUCLEAR CHEMISTRY By: Stephanie Chen and Stephanie Ng.

Nuclear Chemistry.

Nuclear / Subatomic Physics Physics – Chapter 25 (Holt)

Alpha, Beta, and Gamma Decay

Atomic Theory, Isotopes and Radioactive Decay

Learning Targets I can name the force that holds the atom’s nucleus together I can describe the two reasons why some isotopes are radioactive. I can describe.

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.

1. Nucleons. Protons and neutrons 2. Nuclide

What is Radioactivity? Radioactive Decay. Nucleus contains protons and neutrons Electron circles the nucleus in orbits Proton: +1 charge, mass number.

Matching the Content to Your Class (I was told there would be no math)

Modern Physics Radioactive Decay. Look at the periodic table given to you. Find element with the atomic number 6 What is it?

Atomic Structure.

Radiation: Particles and Energy.

Nuclear Chemistry. Two main forces in nucleus  Strong nuclear force—all nuclear particles attract each other  Electric forces—protons repulse each other.

The Atom/Nuclear Study Guide Review. Complete the following table: Subatomic Particle LocationChargeRelative Mass Protonnucleus+ 1 amu Electronoutside.

Nuclear Chemistry Chemistry Ms.Piela.

Atomic Stability. Isotopes Isotopes are atoms of an element that have different numbers of neutrons in their nucleus. Cu Copper – 63 OR Copper.

Physical Science. Sec 1: What is radioactivity? So what are the names of these particles? Positive particles? protons neutrons No charge, NEUtral.

Nuclear Power. Locations of Nuclear Power plants in the US.

Nuclear Chemistry Ch. 21. Radioactive Emissions Alpha decay – He nucleus What product is formed when radium-226 undergoes alpha decay? What element undergoes.

Radioactivity and Nuclear Energy Chapter 19 neFFc&feature=related.

Nuclear Chemistry , Nuclear Chemistry The study of the properties and reactions of atomic nuclei Atoms with identical atomic numbers.

Chapter 15 Nuclear Radiation

Chapter 21 Nuclear Chemistry John A. Schreifels Chemistry 212.

3-4 Changes in the Nucleus

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

Unstable Nuclei & Radioactive Decay Radioactivity Nucleus of an element spontaneously emits subatomic particles & electromagnetic waves. Nucleus of an.

Nuclear Chemistry Nucleons vs. Nuclide  Nucleons: General name referring to nucleus made up off Protons + Neutrons  Nuclide: Nuclear chemistry’s way.

Radioactive Nuclide Nuclide which is unstable. It emits radiation & changes into another kind of atom.

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 Radiation Half-Life. What is Radiation? Penetrating rays and particles emitted by a radioactive source Result of a nuclear reaction! –Involves.

Section 19.1 Radioactivity 1.Students will be able to describe the factors that lead to nuclear stability. 2.Students will be able to describe types of.

Nuclear Chemistry. ATOMIC REVIEW: Atomic number = # of protons # of neutrons = mass # - atomic # protons & neutrons are in the nucleus.

1 This is Jeopardy Nuclear Chemistry 2 Category No. 1 Category No. 2 Category No. 3 Category No. 4 Category No Final Jeopardy.

CHAPTER 25 Nuclear Chemistry. Radioactivity Marie and Pierre Curie –S–S–S–Studied uranium salts –F–F–F–Found that uranium emitted rays of particles even.

Mass-Energy Equivalence All matter is a form of stored energy.

Nuclear Chemistry. Radioactivity The process by which materials give off such rays radioactivity; the rays and particles emitted by a radioactive source.

Alpha and Beta Decay. Nuclear Reactions 1.Occur when nuclei emit particles and/or rays. 2.Atoms are often converted into atoms of another element. 3.May.

NUCLEAR CHANGES What is Radioactivity?. What happens when an element undergoes radioactive decay? During radioactive decay an unstable nuclei of an isotope.

Energy Unit Learning Goal 3: Examine how changes in the nucleus of an atom result in emissions of radioactivity.

Nuclear Decay You will be learning: 1.What is alpha, beta, and gamma radiation. 2.Know the half-life of a radioactive material. 3.How to describe the process.

Nuclear, i.e. pertaining to the nucleus. Nucleus Most nuclei contain p + and n 0 When packed closely together, there are strong attractive forces (nuclear.

Chapter 10 Nuclear Decay. Objectives 〉 What happens when an element undergoes radioactive decay? 〉 How does radiation affect the nucleus of an unstable.

Nuclear Chemistry. The study of reactions that take place in the nucleii of atoms.

 Reactions that affect the nucleus  Can change the identity of the element (if number of protons change)

Ch 21: Nuclear Chemistry. Radioactivity Wilhelm Roentgen made a big discovery in He found that invisible rays were emitted when electrons bombarded.

Nuclear Chemistry Lesson 1.

Nuclear Chemistry Lesson 1.

Nuclear Energy Atoms and Isotopes.

Nuclear Chemistry Physical Science.

Radioactive Decay.

Nuclear Energy Atoms and Isotopes.

Nuclear Chemistry.

Radioactive Decay.

Radioactive Decay.

Harnessing the Power of the Sun

Harnessing the Power of the Sun

Nuclear Chemistry Chapter 21.

Nuclear Chemistry Nuclear ≠ Nucluar.

Presentation transcript:

Warmup: review questions (3 minutes) 1) What determines the identity of a element? A. # protons B. # neutrons C. # electrons D. atomic mass 2) Write the isotope symbol for sulfur-33 3) How many neutrons does an atom of sulfur-33 have? 4) Write down everything you know about radiation.

Radioactive Decay

Types of Radiation alpha particle: + charged helium isotope Radiation is when an UNSTABLE atom throws out part of itself. This often changes one element to another. ++ alpha particle: + charged helium isotope other isotopes neutron beta particle: an electron Types of Radiation proton: hydrogen-1 gamma ray: pure energy positron: + electron n and n (no mass or charge)

The diagram below shows how different particles can penetrate the same material. Which type of particle is the most harmful?

Because they have no charge gamma rays are very “non-interactive” This allows them to travel through objects….even you…..

Why does radiation happen? Protons and neutrons are held together to form the nucleus by the Strong Nuclear Force. Like charges repel (Electrostatic Force)….protons push away from each other Sometimes, the ES force dominates, causing the nucleus to decompose (radiation) Two other basic forces in nature: gravity, weak nuclear force.

6. Write the isotope symbol for Neptunium-240 *special notation to indicate isotopes # neutrons = mass - atomic # Isotopes: 2 atoms of the same element having different masses because the #neutrons differs 5. A carbon atom can have a mass of 12, 13, or 14 AMU. How many neutrons are in a carbon-14 atom? 6. Write the isotope symbol for Neptunium-240 7. How many neutrons are in atom of Neptunium-240? 3

The Fate of a Heavy Nucleus Heavy atoms (atomic number over 84) all have unstable nuclei (so do some light atoms) Decay into a smaller nucleus (called transmutation – new element formed) Radioactive decay equations show the changes in mass and atomic #’s; charge and mass must be conserved Normal Chemical Rxns vs Nuclear Rxns Involve electrons; compounds form and/or break apart Protons and neutrons don’t move Small energy changes Nucleus opens, protons and neutrons rearrange Releases a tremendous amount of energy that used to hold the nucleus together (binding energy) 4

Electron capture an inner orbital electron is pulled into the nucleus A proton combines with the electron to make a neutron (and a ‘neutrino’) 1p + 0e  1n + 0v 1 -1 0 0 7

8. Write balanced equations showing the electron capture of: argon-37 iron-55 37Ar + 0e 37Cl + n 18 17 -1 The atomic number decreases by 1 The mass number stays the same - Increase # of neutrons by 1 - Decrease # of protons by 1 55Fe + 0e 55Mn + n 26 25 -1

Beta decay a neutron decays into a proton, a beta particle, (and an antineutrino) 1n 1p + 0b + n 1 -1 5 5

9. Write balanced equations showing the beta particle decay of: carbon-14 14C 14N + 0b + n 6 7 -1 Decrease # of neutrons by 1 Increase # of protons by 1 Mass # stays the same b. potassium-40 40K 40Ca + 0b + n 19 20 -1

Positron Emission a proton decays into a neutron and a positron positron (“anti-electron” ) has a charge of +1 1p 1n + 0b + n 1 +1 7

10. Write balanced equation showing the position emission of: a. carbon-11 b. potassium-38 11C 11B + 0b + n 6 5 +1 38K 38Ar + 0b + n 19 18 +1 The mass number remains the same Decrease of # protons by 1 Increase # of neutrons by 1

Alpha decay atomic number decreases by 2 mass # decreases by 4 5 5

Americium- 241 is the radioactive element used in today's smoke detectors. a very small quantity is used ( 1/5000th of a gram) no risk of radiation half-life is about 432 years - decays extremely slow, emitting very little radiation. Americium pellet gives off alpha particles Alpha particles hit atoms (in the air) and knock off their electrons and the atoms become positively charged An electrical circuit counts the positive atoms If smoke is present the number of positive atoms changes and the smoke detector sounds the alarm!!

11. Write a balanced equations showing the alpha decay of a 11. Write a balanced equations showing the alpha decay of a. Am-241 and b. Po-212 212Po 4He + 208Pb 84 2 82

*high energy packets of light are sometimes emitted when the nucleus undergoes some other type of decay *No loss of particles, no change in mass or atomic number Gamma decay tends to be coupled with another type of decay. The gamma energy comes from the loss of mass. If you were to do a close measurement of mass, you would notice a small loss in mass with emission of the gamma ray that corresponds to the energy predicted by E=mc2. i

12. What radioactive isotope is produced when one alpha particle is absorbed by boron-10 and 1 neutron is produced? 10B + 4He 1n + 5 2 0 13N 7 19