Name Date Class NUCLEAR RADIATION. alpha particle beta particle gamma ray

Size: px
Start display at page:

Download "Name Date Class NUCLEAR RADIATION. alpha particle beta particle gamma ray"

Transcription

1 25.1 NUCLEAR RADIATION Section Review Objectives Explain how an unstable nucleus releases energy Describe the three main types of nuclear radiation Vocabulary radioisotopes radioactivity radiation alpha particle beta particle gamma ray Part A Completion Use this completion exercise to check your understanding of the concepts and terms that are introduced in this section. Each blank can be completed with a term, short phrase, or number. Isotopes with unstable nuclei are 1 and are called The 3 of radioisotopes decay to 4 nuclei 2. plus emission of large amounts of 5. The radiation may 3. be alpha, 6, or gamma. 7 radiation consists of 4. alpha particles (positively charged 8 nuclei) that are easily 5. stopped by a sheet of paper. Beta radiation is composed of 6. fast-moving particles, which are 9. Beta radiation is more 7. penetrating than alpha radiation; it is stopped by radiation is electromagnetic radiation. Gamma radiation 9. has no 12 or electrical charge. It is extremely penetrating bricks and 14 reduce the intensity of gamma 11. radiation but do not completely 15 it Chapter 25 Nuclear Chemistry 661

2 Part B True-False Classify each of these statements as always true, AT; sometimes true, ST; or never true, NT. 16. Beta radiation is emitted when a radioisotope decays. 17. Gamma radiation has a negative charge 18. Gamma radiation is high-energy electromagnetic radiation U 0 1 e U 20. When a beta particle is emitted, the atomic number increases by 1, and the mass number stays the same. Part C Matching Match each description in Column B to the correct term in Column A. Column A 21. radioisotopes 22. radioactive decay 23. gamma ray Column B a. the process in which an unstable nucleus releases energy by emitting radiation b. isotopes that have unstable nuclei and undergo radioactive decay c. high-energy photon with no mass or electrical charge 24. alpha particles 25. beta particles Part D Problems Answer the following in the space provided. 26. Write nuclear equations for these processes. a. The alpha decay of Po b. The beta decay of Pb d. electrons resulting from the breaking apart of a neutron in an atom e. helium nuclei emitted from a radioactive source 662 Core Teaching Resources

3 25.2 NUCLEAR TRANSFORMATIONS Section Review Objectives Describe the type of decay a radioisotope undergoes Make calculations that involve half-life Explain the two ways transmutations can occur Vocabulary band of stability positron half-life transmutation transuranium elements Part A Completion Use this completion exercise to check your understanding of the concepts and terms that are introduced in this section. Each blank can be completed with a term, short phrase, or number. Nuclei that lie outside the 1 undergo spontaneous 1. radioactive decay. Nuclei with too many neutrons undergo 2. 2 emission as neutrons are converted to protons. A 3 3. is a particle with a positive charge and the mass of an electron. 4. Every radioisotope decays at a characteristic 4. A 5. 5 is the time required for one half of the nuclei in a radio- 6. isotope to decay. The product nuclei may or may not be Half-lives vary from fractions of a second to 7 of years. 8. The conversion of atoms of one element to atoms of another 9. is called 8. This process can occur by 9 or when 10. particles bombard the nucleus of an atom. All of the elements 11. with 10 above 92 have been 11 in nuclear reactors or accelerators. Chapter 25 Nuclear Chemistry 663

4 Part B True-False Classify each of these statements as always true, AT; sometimes true, ST; or never true, NT. 12. If you start with one mole of a radioisotope, after 10 half-lives, there will be none of the isotope left. 13. A radioisotope has a half-life of 12 minutes. After 36 minutes only one third of the radioactive atoms initially present will remain. 14. Transuranium elements have atomic numbers greater than Transmutation reactions occur spontaneously. 16. Positively charged particles have the mass of an electron. Part C Matching Match each description in Column B to the correct term in Column A. Column A Column B 17. band of stability 18. positron 19. half-life a. conversion of an atom of one element to an atom of another element b. time required for one half of the nuclei of a radioisotope to decay to products c. region containing stable nuclei in a neutron vs. proton plot 20. transmutation 21. transuranium elements Part D Questions d. elements with atomic numbers higher than 92 e. particle with the same mass as an electron but with a positive charge Answer the following in the space provided. 22. Sodium-24 has a half-life of 15 hours. How much sodium-24 will remain in an 18.0-g sample after 60 hours? 23. After 42 days, a 2.0-g sample of phosphorus-32 contains only 0.25 g of isotope. What is the half-life of phosphorus-32? 664 Core Teaching Resources

5 25.3 FISSION AND FUSION OF ATOMIC NUCLEI Section Review Objectives Describe what happens in a nuclear chain reaction Explain the role of water in the storage of spent fuel rods Compare and contrast fission and fusion reactions Vocabulary fission neutron moderation neutron absorption fusion Part A Completion Use this completion exercise to check your understanding of the concepts and terms that are introduced in this section. Each blank can be completed with a term, short phrase, or number. Nuclear 1 occurs when fissionable isotopes are 1. bombarded with 2. The 3 breaks into two fragments 2. of about the same size, and in the process they release more 3. neutrons and Neutron 5 is the process that reduces the speed of 5. neutrons. Neutron 6 is the process that decreases the 6. number of slow-moving neutrons. In nuclear 7, nuclei 7. combine to make nuclei of greater 8. The sun s 9 8. is produced when 10 nuclei fuse to make 11 nuclei. 9. Fusion releases even more energy than fission Part B True-False Classify each of these statements as always true, AT; sometimes true, ST; or never true, NT. 12. Water is used as a moderator in nuclear reactors. 13. In nuclear fusion, the nuclei of two large atoms fuse together. Chapter 25 Nuclear Chemistry 665

6 14. Moderation of neutrons is used to slow nuclear fission. 15. Nuclear fusion can be easily produced under laboratory conditions. Part C Matching Match each description in Column B to the correct term in Column A. Column A Column B 16. fission 17. neutron moderation 18. neutron absorption a. the splitting of an atomic nucleus into smaller fragments b. combination of two nuclei to produce a nucleus of greater mass c. process used to reduce the speed of neutrons 19. fusion d. isotope capable of fission 20. uranium-235 e. process used to decrease the number of slow-moving neutrons Part D Questions and Problems Answer the following in the space provided. 21. How many neutrons are produced in each of the following fission reactions? 239 Pu 1 0 n Sr 56 Ba?1 0 n a. 94 b U 1 0 n Zn 62 Sm?1 0 n 22. What is the role in a nuclear reactor of a. neutron moderation? b. neutron absorption? 666 Core Teaching Resources

7 25.4 RADIATION IN YOUR LIFE Section Review Objectives Describe three devices that are used to detect radiation List examples of how radioisotopes are used in medicine Vocabulary ionizing radiation Geiger counter scintillation counter film badge neutron activation analysis Part A Completion Use this completion exercise to check your understanding of the concepts and terms that are introduced in this section. Each blank can be completed with a term, short phrase, or number. The radiation emitted by radioisotopes is known as 1 1. radiation because of its ability to strip 2 from atoms of a 2. bombarded substance. It is not possible to detect ionizing radiation 3. with your A 4 counter uses a 5 -filled tube to detect ionizing 5. radiation. A 6 counter uses a phosphor-coated surface to 6. detect 7 types of ionizing radiation. 7. Radioisotopes have many practical uses. For example, 8 8. is used to detect thyroid problems, while 9 is used to detect 9. skin cancers. 10 analysis is a procedure used to detect trace 10. amounts of elements in samples. Part B True-False Classify each of these statements as always true, AT; sometimes true, ST; or never true, NT. 11. The film badge is a personal radiation monitor. 12. A Geiger counter is the best alpha particle detector. Chapter 25 Nuclear Chemistry 667

8 13. A scintillation counter is used to detect gamma radiation. 14. Iodine-131 can detect thyroid problems. Part C Matching Match each description in Column B to the correct term in Column A. Column A 15. ionizing radiation 16. Geiger counter 17. scintillation counter 18. film badge 19. neutron activation analysis Column B a. radiation detector consisting of several layers of photographic film b. radiation with enough energy to knock electrons off some of the atoms it strikes c. device that uses a coated surface called a phosphor to detect ionizing radiation d. procedure used to detect trace amounts of elements in samples e. gas-filled tube used to detect radiation Part D Questions Answer the following in the space provided. 20. Which of the following is the best means of monitoring radiation for individuals who work with radioactive material? Circle the letter of the correct answer. a Geiger counter b. film badge c. scintillation counter 21. List applications of radioisotopes in research and medicine. 668 Core Teaching Resources

Chapter 21

Chapter 21 Chapter 21 http://youtu.be/kwasz59f8ga Nuclear reactions involve the nucleus The nucleus opens, and protons and neutrons are rearranged. The opening of the nucleus releases a tremendous amount of energy

More information

Name Date Class NUCLEAR CHEMISTRY

Name Date Class NUCLEAR CHEMISTRY 25 NUCLEAR CHEMISTRY SECTION 25.1 NUCLEAR RADIATION (pages 799 802) This section describes the nature of radioactivity and the process of radioactive decay. It characterizes alpha, beta, and gamma radiation

More information

Name Date Class NUCLEAR CHEMISTRY. Standard Curriculum Core content Extension topics

Name Date Class NUCLEAR CHEMISTRY. Standard Curriculum Core content Extension topics 28 NUCLEAR CHEMISTRY Conceptual Curriculum Concrete concepts More abstract concepts or math/problem-solving Standard Curriculum Core content Extension topics Honors Curriculum Core honors content Options

More information

Unit 3: Chemistry in Society Nuclear Chemistry Summary Notes

Unit 3: Chemistry in Society Nuclear Chemistry Summary Notes St Ninian s High School Chemistry Department National 5 Chemistry Unit 3: Chemistry in Society Nuclear Chemistry Summary Notes Name Learning Outcomes After completing this topic you should be able to :

More information

Chapter 21. Preview. Lesson Starter Objectives Mass Defect and Nuclear Stability Nucleons and Nuclear Stability Nuclear Reactions

Chapter 21. Preview. Lesson Starter Objectives Mass Defect and Nuclear Stability Nucleons and Nuclear Stability Nuclear Reactions Preview Lesson Starter Objectives Mass Defect and Nuclear Stability Nucleons and Nuclear Stability Nuclear Reactions Section 1 The Nucleus Lesson Starter Nuclear reactions result in much larger energy

More information

Name Date Class. alpha particle radioactivity gamma ray radioisotope beta particles radiation X-ray radioactive decay

Name Date Class. alpha particle radioactivity gamma ray radioisotope beta particles radiation X-ray radioactive decay Name Date _ Class _ Nuclear Chemistry Section.1 Nuclear Radiation In your textbook, read about the terms used to describe nuclear changes. Use each of the terms below just once to complete the passage.

More information

and have low penetrating power) Alpha particles are released through alpha decay. Beta Particles: An electron that comes from a nucleus through

and have low penetrating power) Alpha particles are released through alpha decay. Beta Particles: An electron that comes from a nucleus through TOPIC 13: Nuclear Chemistry 1. When the atomic nucleus of one element is changed into the nucleus of a different element, the reaction is called transmutation. Stability of a Nucleus: Any element containing

More information

Ch Radioactivity. Henry Becquerel, using U-238, discovered the radioactive nature of elements in 1896.

Ch Radioactivity. Henry Becquerel, using U-238, discovered the radioactive nature of elements in 1896. Ch. 10 - Radioactivity Henry Becquerel, using U-238, discovered the radioactive nature of elements in 1896. Radioactivity the process in which an unstable atomic nucleus emits charged particles and energy

More information

Chapter 25. Nuclear Chemistry. Types of Radiation

Chapter 25. Nuclear Chemistry. Types of Radiation Chapter 25 Nuclear Chemistry Chemical Reactions 1. Bonds are broken and formed 2. Atoms may rearrange, but remain unchanged 3. Involve only valence electrons 4. Small energy changes 5. Reaction rate is

More information

Atoms and Nuclear Chemistry. Atoms Isotopes Calculating Average Atomic Mass Radioactivity

Atoms and Nuclear Chemistry. Atoms Isotopes Calculating Average Atomic Mass Radioactivity Atoms and Nuclear Chemistry Atoms Isotopes Calculating Average Atomic Mass Radioactivity Atoms An atom is the smallest particle of an element that has all of the properties of that element. Composition

More information

RADIOACTIVITY: spontaneous disintegration of the nucleus of certain atoms accompanied by the emission (release) of particles and/or energy

RADIOACTIVITY: spontaneous disintegration of the nucleus of certain atoms accompanied by the emission (release) of particles and/or energy RADIOACTIVITY: spontaneous disintegration of the nucleus of certain atoms accompanied by the emission (release) of particles and/or energy ~ TRANSMUTATION: the change of one element into another due to

More information

Nuclear Chemistry. Proposal: build a nuclear power plant in Broome County. List the pros & cons

Nuclear Chemistry. Proposal: build a nuclear power plant in Broome County. List the pros & cons Nuclear Chemistry Proposal: build a nuclear power plant in Broome County. List the pros & cons 1 Nuclear Chemistry Friend or Fiend 2 The Nucleus What is in the nucleus? How big is it vs. the atom? How

More information

Name: Class: Date: SHORT ANSWER Answer the following questions in the space provided.

Name: Class: Date: SHORT ANSWER Answer the following questions in the space provided. CHAPTER 21 REVIEW Nuclear Chemistry SECTION 1 SHORT ANSWER Answer the following questions in the space provided. 1. Based on the information about the three elementary particles in the text, which has

More information

There are no stable isotopes of elements above atomic number 83.

There are no stable isotopes of elements above atomic number 83. Nuclear Chemistry Stability of isotopes is based on the ratio of neutrons and protons in its nucleus. Although most nuclei are stable, some are unstable and spontaneously decay, emitting radiation. All

More information

RADIOACTIVITY: spontaneous disintegration of the nucleus of certain atoms accompanied by the emission (release) of particles and/or energy

RADIOACTIVITY: spontaneous disintegration of the nucleus of certain atoms accompanied by the emission (release) of particles and/or energy RADIOACTIVITY: spontaneous disintegration of the nucleus of certain atoms accompanied by the emission (release) of particles and/or energy ~ TRANSMUTATION: the change of one element into another due to

More information

UNIT 13: NUCLEAR CHEMISTRY

UNIT 13: NUCLEAR CHEMISTRY UNIT 13: NUCLEAR CHEMISTRY REVIEW: ISOTOPE NOTATION An isotope notation is written as Z A X, where X is the element, A is the mass number (sum of protons and neutrons), and Z is the atomic number. For

More information

Chem 1A Chapter 5 and 21 Practice Test Grosser ( )

Chem 1A Chapter 5 and 21 Practice Test Grosser ( ) Class: Date: Chem A Chapter 5 and 2 Practice Test Grosser (203-204) Multiple Choice Identify the choice that best completes the statement or answers the question.. The periodic law states that the properties

More information

Fiesta Ware. Nuclear Chemistry. 2009, Prentice-Hall, Inc.

Fiesta Ware. Nuclear Chemistry. 2009, Prentice-Hall, Inc. Fiesta Ware 2009, Prentice-Hall, Inc. Measuring Radioactivity One can use a device like this Geiger counter to measure the amount of activity present in a radioactive sample. The ionizing radiation creates

More information

Table O: Symbols Used in Nuclear Chemistry

Table O: Symbols Used in Nuclear Chemistry Packet 12: NUCLEAR CHEMISTRY STABLITY OF NUCLEI Most nuclei are stable and don t change. They are found within the belt of stability. Some nuclei are unstable and break down spontaneously giving off rays

More information

Isotopes Atoms of an element (same # p+) that differ in their number of neutrons

Isotopes Atoms of an element (same # p+) that differ in their number of neutrons Isotopes Atoms of an element (same # p+) that differ in their number of neutrons Radio-isotopes Isotope of an element that is UNSTABLE. They spontaneously emit particles (energy) in order to achieve a

More information

Chemistry 52 Chapter 11 ATOMIC STRUCTURE. The general designation for an atom is shown below:

Chemistry 52 Chapter 11 ATOMIC STRUCTURE. The general designation for an atom is shown below: ATOMIC STRUCTURE An atom is composed of a positive nucleus surrounded by negatively charged electrons. The nucleus is composed of protons and neutrons. The protons and neutrons in a nucleus are referred

More information

Notes: Unit 13 Nuclear Chemistry

Notes: Unit 13 Nuclear Chemistry Name: Regents Chemistry: Notes: Unit 13 Nuclear Chemistry Name: KEY IDEAS: Stability of isotopes is based in the ratio of neutrons and protons in its nucleus. Although most nuclei are stable, some are

More information

Chemistry 19 Prep Test - Nuclear Processes

Chemistry 19 Prep Test - Nuclear Processes Chapter 9 Prep-Test Chemistry 9 Prep Test - Nuclear Processes Multiple Choice Identify the letter of the choice that best completes the statement or answers the question.. Which of the illustrations above

More information

Friday, 05/06/16 6) HW QUIZ MONDAY Learning Target (NEW)

Friday, 05/06/16 6) HW QUIZ MONDAY Learning Target (NEW) Friday, 05/06/16 1) Warm-up: If you start with 100g of a radioactive substance, how much will be left after 3 half-lives? 2) Review HW & Nuclear Notes 3) Complete Modeling Energy Investigation 4) Complete:

More information

Chapter 21 Nuclear Chemistry

Chapter 21 Nuclear Chemistry Chapter 21 Nuclear Chemistry The Nucleus Remember that the nucleus is comprised of the two nucleons, protons and neutrons. The number of protons is the atomic number. The number of protons and neutrons

More information

Nonrenewable Energy: Nuclear. Energy Part 2

Nonrenewable Energy: Nuclear. Energy Part 2 Nonrenewable Energy: Nuclear Energy Part 2 What do you know about Nuclear Chemistry? http://ed.ted.com/lessons/radioactivity-expect-the-unexpected-steveweatherall I. Radiation Radiation = any movement

More information

Nuclear Chemistry AP Chemistry Lecture Outline

Nuclear Chemistry AP Chemistry Lecture Outline Nuclear Chemistry AP Chemistry Lecture Outline Name: involve changes with electrons. involve changes in atomic nuclei. Spontaneously-changing nuclei emit and are said to be. Radioactivity nucleons: mass

More information

Physics 3204 UNIT 3 Test Matter Energy Interface

Physics 3204 UNIT 3 Test Matter Energy Interface Physics 3204 UNIT 3 Test Matter Energy Interface 2005 2006 Time: 60 minutes Total Value: 33 Marks Formulae and Constants v = f λ E = hf h f = E k + W 0 E = m c 2 p = h λ 1 A= A T 0 2 t 1 2 E k = ½ mv 2

More information

Lecture Presentation. Chapter 21. Nuclear Chemistry. James F. Kirby Quinnipiac University Hamden, CT Pearson Education, Inc.

Lecture Presentation. Chapter 21. Nuclear Chemistry. James F. Kirby Quinnipiac University Hamden, CT Pearson Education, Inc. Lecture Presentation Chapter 21, Inc. James F. Kirby Quinnipiac University Hamden, CT Energy: Chemical vs. Chemical energy is associated with making and breaking chemical bonds. energy is enormous in comparison.

More information

Ch05. Radiation. Energy and matter that comes from the nucleus of an atom. version 1.6

Ch05. Radiation. Energy and matter that comes from the nucleus of an atom. version 1.6 Ch05 Radiation Energy and matter that comes from the nucleus of an atom. version 1.6 Nick DeMello, PhD. 2007-2016 Ch05 Radiation The Discovery of Radioactivity Phosphorescence Radioactive history Antoine

More information

Alta Chemistry CHAPTER 25. Nuclear Chemistry: Radiation, Radioactivity & its Applications

Alta Chemistry CHAPTER 25. Nuclear Chemistry: Radiation, Radioactivity & its Applications CHAPTER 25 Nuclear Chemistry: Radiation, Radioactivity & its Applications Nuclear Chemistry Nuclear Chemistry deals with changes in the nucleus The nucleus of an atom contains Protons Positively Charged

More information

HOMEWORK 22-1 (pp )

HOMEWORK 22-1 (pp ) CHAPTER 22 HOMEWORK 22-1 (pp. 701 702) Define. 1. nucleons 2. nuclide 3. mass defect 4. nuclear binding energy Solve. Use masses of 1.0087 amu for the neutron, 1.00728 amu for the proton, and 5.486 x 10

More information

Chapter 3. Radioactivity. Table of Contents

Chapter 3. Radioactivity. Table of Contents Radioactivity Table of Contents Introduction 1. Radioactivity 2. Types of Radioactive Decays 3. Natural Radioactivity 4. Artificial Radioactivity 5. The Rate of Radioactive Decay 6. The Effects of Radiation

More information

Chapter 22 - Nuclear Chemistry

Chapter 22 - Nuclear Chemistry Chapter - Nuclear Chemistry - The Nucleus I. Introduction A. Nucleons. Neutrons and protons B. Nuclides. Atoms identified by the number of protons and neutrons in the nucleus 8 a. radium-8 or 88 Ra II.

More information

UNIT 10 RADIOACTIVITY AND NUCLEAR CHEMISTRY

UNIT 10 RADIOACTIVITY AND NUCLEAR CHEMISTRY UNIT 10 RADIOACTIVITY AND NUCLEAR CHEMISTRY student version www.toppr.com Contents (a) Types of Radiation (b) Properties of Radiation (c) Dangers of Radiation (d) Rates of radioactive decay (e) Nuclear

More information

1ST SEM MT CHAP 22 REVIEW

1ST SEM MT CHAP 22 REVIEW 1ST SEM MT CHAP 22 REVIEW Multiple Choice Identify the choice that best completes the statement or answers the question. (CAPITAL LETTERS ONLY PLEASE) 1. Mass defect is the difference between the mass

More information

Nuclear Radiation. Natural Radioactivity. A person working with radioisotopes wears protective clothing and gloves and stands behind a shield.

Nuclear Radiation. Natural Radioactivity. A person working with radioisotopes wears protective clothing and gloves and stands behind a shield. Nuclear Radiation Natural Radioactivity A person working with radioisotopes wears protective clothing and gloves and stands behind a shield. 1 Radioactive Isotopes A radioactive isotope has an unstable

More information

Notes: Unit 14 Nuclear Chemistry

Notes: Unit 14 Nuclear Chemistry Name: Regents Chemistry: Mr. Palermo Notes: Unit 14 Nuclear Chemistry www.mrpalermo.com Name: KEY IDEAS: Stability of isotopes is based in the ratio of neutrons and protons in its nucleus. Although most

More information

Nuclear Chemistry Review Packet

Nuclear Chemistry Review Packet Name Date Nuclear Chemistry Review Packet 1. The ratio of stability is (1) proton : neutron (2) neutron : proton (3) proton : positron (4) beta : proton 2. Which nuclear reaction is classified as alpha

More information

Atomic Notation (or Nuclear Symbol): Shorthand for keeping track of protons and neutrons in the nucleus

Atomic Notation (or Nuclear Symbol): Shorthand for keeping track of protons and neutrons in the nucleus Name Section CHM52LL: Nuclear Chemistry: Radioactivity, Decay, Dating, and Other Hazards There is no prelab assignment this week I. Radioactive Isotopes and Nuclear Equations Atoms are composed of three

More information

Nuclear Reactions Homework Unit 13 - Topic 4

Nuclear Reactions Homework Unit 13 - Topic 4 Nuclear Reactions Homework Unit 13 - Topic 4 Use the laws of conservation of mass number and charge to determine the identity of X in the equations below. Refer to a periodic table as needed. 222 a. Rn

More information

UNIT 10 RADIOACTIVITY AND NUCLEAR CHEMISTRY

UNIT 10 RADIOACTIVITY AND NUCLEAR CHEMISTRY UNIT 10 RADIOACTIVITY AND NUCLEAR CHEMISTRY teacher version www.toppr.com Contents (a) Types of Radiation (b) Properties of Radiation (c) Dangers of Radiation (d) Rates of radioactive decay (e) Nuclear

More information

Chapter 18. Nuclear Chemistry

Chapter 18. Nuclear Chemistry Chapter 18 Nuclear Chemistry The energy of the sun comes from nuclear reactions. Solar flares are an indication of fusion reactions occurring at a temperature of millions of degrees. Introduction to General,

More information

Radioactivity & Nuclear. Chemistry. Mr. Matthew Totaro Legacy High School. Chemistry

Radioactivity & Nuclear. Chemistry. Mr. Matthew Totaro Legacy High School. Chemistry Radioactivity & Nuclear Chemistry Mr. Matthew Totaro Legacy High School Chemistry The Discovery of Radioactivity Antoine-Henri Becquerel designed an experiment to determine if phosphorescent minerals also

More information

Nuclear Physics and Nuclear Reactions

Nuclear Physics and Nuclear Reactions Slide 1 / 33 Nuclear Physics and Nuclear Reactions The Nucleus Slide 2 / 33 Proton: The charge on a proton is +1.6x10-19 C. The mass of a proton is 1.6726x10-27 kg. Neutron: The neutron is neutral. The

More information

Nuclear Physics Questions. 1. What particles make up the nucleus? What is the general term for them? What are those particles composed of?

Nuclear Physics Questions. 1. What particles make up the nucleus? What is the general term for them? What are those particles composed of? Nuclear Physics Questions 1. What particles make up the nucleus? What is the general term for them? What are those particles composed of? 2. What is the definition of the atomic number? What is its symbol?

More information

da u g ht er + radiation

da u g ht er + radiation RADIOACTIVITY The discovery of radioactivity can be attributed to several scientists. Wilhelm Roentgen discovered X-rays in 1895 and shortly after that Henri Becquerel observed radioactive behavior while

More information

Nuclear Chemistry. Nuclear Terminology

Nuclear Chemistry. Nuclear Terminology Nuclear Chemistry Up to now, we have been concerned mainly with the electrons in the elements the nucleus has just been a positively charged things that attracts electrons The nucleus may also undergo

More information

L-35 Modern Physics-3 Nuclear Physics 29:006 FINAL EXAM. Structure of the nucleus. The atom and the nucleus. Nuclear Terminology

L-35 Modern Physics-3 Nuclear Physics 29:006 FINAL EXAM. Structure of the nucleus. The atom and the nucleus. Nuclear Terminology 9:006 FINAL EXAM L-5 Modern Physics- Nuclear Physics The final exam is on Monday MAY 7:0 AM - 9:0 AM in W90 CB The FE is not cumulative, and will cover lectures through 6. (50 questions) The last regular

More information

Interaction of the radiation with a molecule knocks an electron from the molecule. a. Molecule ¾ ¾ ¾ ion + e -

Interaction of the radiation with a molecule knocks an electron from the molecule. a. Molecule ¾ ¾ ¾ ion + e - Interaction of the radiation with a molecule knocks an electron from the molecule. radiation a. Molecule ¾ ¾ ¾ ion + e - This can destroy the delicate balance of chemical reactions in living cells. The

More information

Unit 12: Nuclear Chemistry

Unit 12: Nuclear Chemistry Unit 12: Nuclear Chemistry 1. Stability of isotopes is based on the ratio of neutrons and protons in its nucleus. Although most nuclei are stable, some are unstable and spontaneously decay, emitting radiation.

More information

Radioactivity One of the pieces of evidence for the fact that atoms are made of smaller particles came from the work of Marie Curie

Radioactivity One of the pieces of evidence for the fact that atoms are made of smaller particles came from the work of Marie Curie 1 Nuclear Chemistry Radioactivity 2 One of the pieces of evidence for the fact that atoms are made of smaller particles came from the work of Marie Curie (1876-1934). She discovered radioactivity or radioactive

More information

U (superscript is mass number, subscript atomic number) - radionuclides nuclei that are radioactive - radioisotopes atoms containing radionuclides

U (superscript is mass number, subscript atomic number) - radionuclides nuclei that are radioactive - radioisotopes atoms containing radionuclides Chapter : Nuclear Chemistry. Radioactivity nucleons neutron and proton all atoms of a given element have the same number of protons, atomic number isotopes atoms with the same atomic number but different

More information

Isotopes of an element have the same symbol and same atomic number - Mass number refers to the protons plus neutrons in an isotope

Isotopes of an element have the same symbol and same atomic number - Mass number refers to the protons plus neutrons in an isotope 7.1 Atomic Theory and Radioactive Decay Natural background radiation exists all around us. This radiation consists of high energy particles or waves being emitted from a variety of materials Radioactivity

More information

Unit 13: Nuclear Chemistry

Unit 13: Nuclear Chemistry Name Unit 13: Nuclear Chemistry Skills: 1. Review Atomic Structure 2. Determining Nuclear Stability 3. Naming and Drawing Hydrocarbons 4. Using N + O to Write Decay Equations Period 5. Solve Various Half

More information

Key Question: What role did the study of radioactivity play in learning more about atoms?

Key Question: What role did the study of radioactivity play in learning more about atoms? Name Chemistry Essential question: How were the parts of the atom determined? Key Question: What role did the study of radioactivity play in learning more about atoms? Vocabulary: alpha particle fusion

More information

Chapter 10. Section 10.1 What is Radioactivity?

Chapter 10. Section 10.1 What is Radioactivity? Chapter 10 Section 10.1 What is Radioactivity? What happens when an element undergoes radioactive decay? How does radiation affect the nucleus of an unstable isotope? How do scientists predict when an

More information

: When electrons bombarded surface of certain materials, invisible rays were emitted

: When electrons bombarded surface of certain materials, invisible rays were emitted Nuclear Chemistry Nuclear Reactions 1. Occur when nuclei emit particles and/or rays. 2. Atoms are often converted into atoms of another element. 3. May involve protons, neutrons, and electrons 4. Associated

More information

Multiple Choice Identify the letter of the choice that best completes the statement or answers the question.

Multiple Choice Identify the letter of the choice that best completes the statement or answers the question. Radioactivity Test Review Multiple Choice Identify the letter of the choice that best completes the statement or answers the question. 1. Radioactive s have unstable a. electrons. c. protons. b. nuclei.

More information

Year 11 Physics booklet Topic 1 Atomic structure and radioactivity Name:

Year 11 Physics booklet Topic 1 Atomic structure and radioactivity Name: Year 11 Physics booklet Topic 1 Atomic structure and radioactivity Name: Atomic structure and radioactivity Give a definition for each of these key words: Atom Isotope Proton Neutron Electron Atomic nucleus

More information

Unit 13: Nuclear Practice Packet Regents Chemistry: Practice Packet: Unit 13 Nuclear Chemistry

Unit 13: Nuclear Practice Packet Regents Chemistry: Practice Packet: Unit 13 Nuclear Chemistry Unit 13: Nuclear Practice Packet Regents Chemistry: Practice Packet: Unit 13 Nuclear Chemistry 1 Unit 13: Nuclear Practice Packet Lesson 1: Radioactive Decay Objective: Construct nuclear equations for

More information

Fundamental Forces of the Universe

Fundamental Forces of the Universe Fundamental Forces of the Universe There are four fundamental forces, or interactions in nature. Strong nuclear Electromagnetic Weak nuclear Gravitational Strongest Weakest Strong nuclear force Holds the

More information

Chapter. Nuclear Chemistry

Chapter. Nuclear Chemistry Chapter Nuclear Chemistry Nuclear Reactions 01 Chapter 22 Slide 2 Chapter 22 Slide 3 Alpha Decay: Loss of an α-particle (a helium nucleus) 4 2 He 238 92 U 234 4 U He 90 + 2 Chapter 22 Slide 4 Beta Decay:

More information

Nuclear fission is used in nuclear power stations to generate electricity. Nuclear fusion happens naturally in stars.

Nuclear fission is used in nuclear power stations to generate electricity. Nuclear fusion happens naturally in stars. 1 (a) Nuclear fission is used in nuclear power stations to generate electricity. Nuclear fusion happens naturally in stars. (i) Explain briefly the difference between nuclear fission and nuclear fusion.

More information

Radioactive Decay 1 of 20 Boardworks Ltd 2016

Radioactive Decay 1 of 20 Boardworks Ltd 2016 Radioactive Decay 1 of 20 Boardworks Ltd 2016 Radioactive Decay 2 of 20 Boardworks Ltd 2016 What is radiation? 3 of 20 Boardworks Ltd 2016 The term radiation (also known as nuclear radiation) refers to

More information

NJCTL.org 2015 AP Physics 2 Nuclear Physics

NJCTL.org 2015 AP Physics 2 Nuclear Physics AP Physics 2 Questions 1. What particles make up the nucleus? What is the general term for them? What are those particles composed of? 2. What is the definition of the atomic number? What is its symbol?

More information

Differentiating Chemical Reactions from Nuclear Reactions

Differentiating Chemical Reactions from Nuclear Reactions Differentiating Chemical Reactions from Nuclear Reactions 1 CHEMICAL Occurs when bonds are broken or formed. Atoms remained unchanged, though may be rearranged. Involves valence electrons Small energy

More information

25.1. Nuclear Radiation

25.1. Nuclear Radiation Nuclear Radiation Marie Curie was a Polish scientist whose research led to many discoveries about radiation and radioactive elements. In 1934 she died from leukemia caused by her long-term exposure to

More information

L 36 Modern Physics [3] The atom and the nucleus. Structure of the nucleus. The structure of the nucleus SYMBOL FOR A NUCLEUS FOR A CHEMICAL X

L 36 Modern Physics [3] The atom and the nucleus. Structure of the nucleus. The structure of the nucleus SYMBOL FOR A NUCLEUS FOR A CHEMICAL X L 36 Modern Physics [3] [L36] Nuclear physics what s inside the nucleus and what holds it together what is radioactivity carbon dating [L37] Nuclear energy nuclear fission nuclear fusion nuclear reactors

More information

Number of protons. 2. What is the nuclear symbol for a radioactive isotope of copper with a mass number of 60? A) Cu

Number of protons. 2. What is the nuclear symbol for a radioactive isotope of copper with a mass number of 60? A) Cu Chapter 5 Nuclear Chemistry Practice Problems 1. Fill in the missing information in the chart: Medical Use Atomic Mass symbol number Heart imaging 201 Tl 81 Number of protons Number of neutrons Abdominal

More information

Nuclear Chemistry. Mass Defect. E=mc 2. Radioactivity. Types of Radiation. Other Nuclear Particles. Nuclear Reactions vs. Normal Chemical Changes

Nuclear Chemistry. Mass Defect. E=mc 2. Radioactivity. Types of Radiation. Other Nuclear Particles. Nuclear Reactions vs. Normal Chemical Changes 1 Nuclear Chemistry Mass Defect 4 Some of the mass can be converted into energy Shown by a very famous equation! E=mc 2 Energy Mass Speed of light Radioactivity 2 Types of Radiation 5 One of the pieces

More information

Nuclear Chemistry. The Nucleus. Isotopes. Slide 1 / 43. Slide 2 / 43. Slide 3 / 43

Nuclear Chemistry. The Nucleus. Isotopes. Slide 1 / 43. Slide 2 / 43. Slide 3 / 43 Slide 1 / 43 Nuclear Chemistry The Nucleus Slide 2 / 43 Remember that the nucleus is comprised of the two nucleons, protons and neutrons. The number of protons is the atomic number. The number of protons

More information

Chapter 18 Nuclear Chemistry

Chapter 18 Nuclear Chemistry Chapter 8 Nuclear Chemistry 8. Discovery of radioactivity 895 Roentgen discovery of radioactivity X-ray X-ray could penetrate other bodies and affect photographic plates led to the development of X-ray

More information

Chapter 4 The Atom. Philosophers and scientists have proposed many ideas on the structure of atoms.

Chapter 4 The Atom. Philosophers and scientists have proposed many ideas on the structure of atoms. Chapter4 TheAtom 4.1 Early Models of the Atom An atom is the smallest particle of an element that retains its identity in a chemical reaction. Philosophers and scientists have proposed many ideas on the

More information

Nuclear Chemistry. Technology Strategies for Success PO Box 1485 East Northport, NY (631) NYS-PREP

Nuclear Chemistry. Technology Strategies for Success PO Box 1485 East Northport, NY (631) NYS-PREP Nuclear Chemistry Technology Strategies for Success PO Box 1485 East Northport, NY 11725 (631)734-0115 1-888-NYS-PREP techstrategies@gmail.com Nuclear Chemistry Table of Contents 1.0 Nuclear Chemistry...3

More information

From Last Time. Stronger than coulomb force, But much shorter range than coulomb force.

From Last Time. Stronger than coulomb force, But much shorter range than coulomb force. From Last Time Nucleus is small, tightly bound system of protons & neutrons. Proton number determines the element. Different isotopes have different # neutrons. Some isotopes unstable, radioactively decay

More information

Mass number i. Example U (uranium 235) and U (uranium 238) atomic number e. Average atomic mass weighted of the isotopes of that element i.

Mass number i. Example U (uranium 235) and U (uranium 238) atomic number e. Average atomic mass weighted of the isotopes of that element i. CP NT Ch. 4&25 I. Atomic Theory and Structure of the Atom a. Democritus all matter consists of very small, indivisible particles, which he named i. Atom smallest particle of an element that retains all

More information

1. This question is about the Rutherford model of the atom.

1. This question is about the Rutherford model of the atom. 1. This question is about the Rutherford model of the atom. (a) Most alpha particles used to bombard a thin gold foil pass through the foil without a significant change in direction. A few alpha particles

More information

What happens during nuclear decay? During nuclear decay, atoms of one element can change into atoms of a different element altogether.

What happens during nuclear decay? During nuclear decay, atoms of one element can change into atoms of a different element altogether. When Henri Becquerel placed uranium salts on a photographic plate and then developed the plate, he found a foggy image. The image was caused by rays that had not been observed before. For his discovery

More information

Nuclear Chemistry. In this chapter we will look at two types of nuclear reactions.

Nuclear Chemistry. In this chapter we will look at two types of nuclear reactions. 1 1 Nuclear Chemistry In this chapter we will look at two types of nuclear reactions. Radioactive decay is the process in which a nucleus spontaneously disintegrates, giving off radiation. Nuclear bombardment

More information

Chapter 37. Nuclear Chemistry. Copyright (c) 2011 by Michael A. Janusa, PhD. All rights reserved.

Chapter 37. Nuclear Chemistry. Copyright (c) 2011 by Michael A. Janusa, PhD. All rights reserved. Chapter 37 Nuclear Chemistry Copyright (c) 2 by Michael A. Janusa, PhD. All rights reserved. 37. Radioactivity Radioactive decay is the process in which a nucleus spontaneously disintegrates, giving off

More information

P7 Radioactivity. Student Book answers. P7.1 Atoms and radiation. Question Answer Marks Guidance

P7 Radioactivity. Student Book answers. P7.1 Atoms and radiation. Question Answer Marks Guidance P7. Atoms and radiation a radiation from U consists = particles, radiation from lamp = electromagnetic waves, radiation from U is ionising, radiation from lamp is non-ionising b radioactive atoms have

More information

Chemistry 19 Prep Test - Nuclear Processes

Chemistry 19 Prep Test - Nuclear Processes Chapter 9 Prep-Test Chemistry 9 Prep Test - Nuclear Processes Multiple Choice Identify the letter of the choice that best completes the statement or answers the question.. Which of the illustrations above

More information

Aim:How can we determine the particles emitted from radioactive

Aim:How can we determine the particles emitted from radioactive Aim:How can we determine the particles emitted from radioactive decay? Nuclear Stability: The larger (more massive) a nucleus is, the harder it is for it to stay together. Natural transmutation (natural

More information

Chapter 17. Radioactivity and Nuclear Chemistry

Chapter 17. Radioactivity and Nuclear Chemistry Chapter 17 Radioactivity and Nuclear Chemistry The Discovery of Radioactivity (1896) Antoine-Henri Bequerel designed experiment to determine whether phophorescent minerals also gave off X-rays. Bequerel

More information

Ch 22 Radioactivity Nuclear Chemistry

Ch 22 Radioactivity Nuclear Chemistry AMHS AP Chemistry Name Period S T A T I O N 1 Q U I Z O N P E O P L E Match the people with the following ideas. Each name may be used once, more than once, or not at all. a) Albert Einstein b) Marie Curie

More information

CHAPTER 25: NUCLEAR CHEMISTRY. Mrs. Brayfield

CHAPTER 25: NUCLEAR CHEMISTRY. Mrs. Brayfield CHAPTER 25: NUCLEAR CHEMISTRY Mrs. Brayfield CHEMICAL VS. NUCLEAR When you hear the word nuclear, what do you think of? What makes nuclear reactions different from chemical reactions? The speed of nuclear

More information

Nuclear Chemistry. Transmutations and the Creation of Elements

Nuclear Chemistry. Transmutations and the Creation of Elements Nuclear Chemistry Transmutations and the Creation of Elements Nuclear Fusion When two smaller elements are fused together to form a larger element. Fusion is Hard! There are two competing forces in an

More information

Nuclear Chemistry CHAPTER

Nuclear Chemistry CHAPTER Reviewing Vocabulary Use each of the terms below just once to complete the following sentences. alpha particle gray nuclear reactor beta particle half-life radioactivity deuterium nuclear fission sievert

More information

NOTES: 25.3 Nuclear Fission & Fusion

NOTES: 25.3 Nuclear Fission & Fusion NOTES: 25.3 Nuclear Fission & Fusion Nuclear Fission: The splitting of a heavy nucleus into lighter nuclei FISSION: a heavy nucleus splits into 2 lighter nuclei some elements undergo fission spontaneously

More information

7.1 Atomic Theory and Radioactive Decay

7.1 Atomic Theory and Radioactive Decay 7.1 Atomic Theory and Radioactive Decay exists all around us. This radiation consists of high energy particles or waves being emitted from a variety of materials. is the release of high energy particles

More information

Nuclear Chemistry Unit

Nuclear Chemistry Unit Nuclear Chemistry Unit January 28th HW Due Thurs. 1/30 Read pages 284 291 Define: Radioactivity Nuclear Radiation Alpha Particle Beta Particle Gamma Ray Half-Life Answer: -Questions 1-3 -Write the symbols

More information

Unit 6 Nuclear Radiation Parent Guide. What is radioactivity and why are things radioactive?

Unit 6 Nuclear Radiation Parent Guide. What is radioactivity and why are things radioactive? Unit 6 Nuclear Radiation Parent Guide What is radioactivity and why are things radioactive? The nucleus of an atom is comprised of subatomic particles called protons and neutrons. Protons have a positive

More information

Nuclear Chemistry. Chapter 24

Nuclear Chemistry. Chapter 24 Nuclear Chemistry Chapter 24 Radioactivity Radioisotopes are isotopes that have an unstable nucleus. They emit radiation to attain more stable atomic configurations in a process called radioactive decay.

More information

SAVE PAPER AND INK!!!

SAVE PAPER AND INK!!! SAVE PAPER AND INK!!! When you print out the notes on PowerPoint, print "Handouts" instead of "Slides" in the print setup. Also, turn off the backgrounds (Tools>Options>Print>UNcheck "Background Printing")!

More information

5 Atomic Physics. 1 of the isotope remains. 1 minute, 4. Atomic Physics. 1. Radioactivity 2. The nuclear atom

5 Atomic Physics. 1 of the isotope remains. 1 minute, 4. Atomic Physics. 1. Radioactivity 2. The nuclear atom 5 Atomic Physics 1. Radioactivity 2. The nuclear atom 1. In a fission reactor, which particle causes a Uranium-235 nucleus to split? A. alpha-particle B. gamma ray C. neutron D. proton 2. A radioactive

More information

Nuclear processes: Vocabulary: Radioactive decay Isotope Alpha particle Beta particle Transmutation Strong Nuclear Force Fusion fission

Nuclear processes: Vocabulary: Radioactive decay Isotope Alpha particle Beta particle Transmutation Strong Nuclear Force Fusion fission Nuclear processes: Students will develop models to illustrate the changes in the composition of the nucleus of the atom and the energy released during the processes of fission, fusion, and radioactive

More information

Nuclear Chemistry. Radioactivity. In this chapter we will look at two types of nuclear reactions.

Nuclear Chemistry. Radioactivity. In this chapter we will look at two types of nuclear reactions. 1 Nuclear Chemistry In this chapter we will look at two types of nuclear reactions. Radioactive decay is the process in which a nucleus spontaneously disintegrates, giving off radiation. Nuclear bombardment

More information

Journal 14. What is so dangerous about nuclear energy?

Journal 14. What is so dangerous about nuclear energy? Journal 14 What is so dangerous about nuclear energy? Nuclear Chemistry Nuclear Chemistry Bravo 15,000 kilotons Discovery of Radiation Wilhelm Conrad Roentgen had discovered X rays Pierre & Marie Curie

More information

D) g. 2. In which pair do the particles have approximately the same mass?

D) g. 2. In which pair do the particles have approximately the same mass? 1. A student constructs a model for comparing the masses of subatomic particles. The student selects a small, metal sphere with a mass of gram to represent an electron. A sphere with which mass would be

More information