The diagram below shows a radioactive isotope going through several half-lives as it decays.
|
|
- Gordon Carpenter
- 5 years ago
- Views:
Transcription
1 By what process do most stars release energy? A. Electromagnetic induction resulting from strong magnetic fields B. Radioactivity in the interior of the star C. Nuclear fusion in the interior of the star D. Heat which was stored when the star was born Carbon-4 has a half-life of approximately 5,700 years. Analysis of the carbon in a piece of charred wood found in an excavation revealed that the carbon has 25 percent of the amount of carbon-4 that is found in the carbon of living trees. Which of the following is most nearly the age of the excavated wood? A. 60 years B. 5,700 years C.,400 years D. 23,000 years
2 Nuclear energy can be generated by fission or fusion. Fusion is not currently being used in reactors as an energy source. Why is this? A. The scientific principles on which fusion is based are not yet known. B. The technological processes for using fusion safely are not developed. C. The necessary raw materials are not readily available. D. Waste products from the fusion process are too dangerous. The final elements produced by radioactive decay differ from the original radioactive elements because the nuclei of the final elements are always A. more stable. B. increased in mass. C. half as radioactive. D. positively charged.
3 The three main types of nuclear radiation are alpha, beta, and gamma. Which of the following lists these types of radiation from highest penetrating power to lowest penetrating power? A. alpha, gamma, beta B. beta, alpha, gamma C. beta, gamma, alpha D. gamma, beta, alpha A hospital buys a compound that contains an isotope of barium. Several months later, most of the barium has changed to the element lanthanum. Which of the following is responsible for this change? A. exposure to air B. radioactive decay C. reactions with the container wall D. absorption of moisture from the air
4 Which of the following statements best describes a difference between nuclear fission and nuclear fusion reactions? A. Nuclei split during fission and combine during fusion. B. Fission forms heavier elements, and fusion forms lighter elements. C. Fission generates potential energy, and fusion generates kinetic energy. D. Nuclei gain electrons during fission and release electrons during fusion. Which of the following statements describes a gamma ray? A. A gamma ray has no mass. B. A gamma ray has a positive charge. C. A gamma ray can be stopped by a sheet of paper. D. A gamma ray can be converted into a beta particle.
5 The diagram below shows a radioactive isotope going through several half-lives as it decays. In sample I, the original isotope has a mass of 40 g. How many grams of the original isotope remain in sample IV? A g B. 20 g C. 0 g D. 5 g Great amounts energy are released in the core of a star as lighter elements combine and form heavier elements during the process of A. compaction B. condensation C. radioactive decay D. nuclear fusion
6 Why are radioactive substances useful for measuring geologic time? A. The ratio of decay products to radioactive substances remains constant in rocks. B. The half-lives of radioactive substances are short. C. Samples of radioactive substances are easy to collect from rocks. D. Radioactive substances undergo decay at a predictable rate. The table below gives information about the radioactive decay of carbon-4. Part of the table has been deliberately left blank for student use. Half-life Mass of Original Carbon-4 Remaining (grams) Number of Years , , , After how many years will 28 gram of the original carbon-4 remain? A. 22,800 yr B. 28,500 yr C. 34,200 yr D. 39,900 yr
7 Base your answer(s) to the following question(s) on the diagram below, which represents a model of a radioactive sample with a half-life of 5000 years. The white boxes represent undecayed radioactive material and the shaded boxes represent the decayed material after the first half-life. How many more boxes should be shaded to represent the additional decayed material formed during the second half-life? A. 2 B. 6 C. 3 D. 0 The graph below shows the radioactive decay of a 50-gram sample of a radioactive isotope. According to the graph, what is the half-life of this isotope? A. 00 years B. 50 years C. 200 years D. 300 years
8 When a radioactive atom emits an alpha particle, the mass number of the atom A. decreases B. increases C. remains the same Neutrons are used to bombard heavy nuclei to form radioactive isotopes because they are A. attracted to the nucleus B. repelled by the electrons C. heavier than alpha particles D. not electrically charged
9 The reaction 3 H + 2 H 4 2 He + n + E illustrates the process of 0 A. alpha decay B. fission C. neutron bombardment D. fusion Which force between the protons in a helium atom will have the greatest magnitude? A. gravitational force B. electrostatic force C. nuclear force D. magnetic force
10 Which statement best describes the fission products from nuclear reactors? A. They are nonradioactive and may be safely discarded. B. They are nonradioactive and must be treated and/or stored. C. They are intensely radioactive and may be safely discarded. D. They are intensely radioactive and must be treated and/or stored. Compared to electrostatic forces, nuclear forces are A. weaker and of shorter range B. weaker and of longer range C. stronger and of shorter range D. stronger and of longer range
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 informationUnit 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 informationAlta 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 informationUnit 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 informationFriday, 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 informationNOTES: 25.2 Nuclear Stability and Radioactive Decay
NOTES: 25.2 Nuclear Stability and Radioactive Decay Why does the nucleus stay together? STRONG NUCLEAR FORCE Short range, attractive force that acts among nuclear particles Nuclear particles attract one
More informationTable 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 informationChapter 7 Review. Block: Date:
Science 10 Chapter 7 Review Name: KEY Block: Date: 1. Radioactivity is the release of high-energy particles and rays from a substance as a result of changes in the nuclei of its atoms.. _Natural background
More informationNuclear 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 informationIsotopes. An isotope is an atom of the same element (same number of protons) that varies in the number of neutrons.
Nuclear Chemistry Isotopes An isotope is an atom of the same element (same number of protons) that varies in the number of neutrons. Most elements have several isotopes Some are unstable and emit radiation
More informationIsotopes. An isotope is an atoms of the same element (same number of protons) that vary in the number of neutrons.
Nuclear Chemistry Isotopes An isotope is an atoms of the same element (same number of protons) that vary in the number of neutrons. Most elements have several isotopes Some are unstable and emit radiation
More informationNuclear 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 informationRADIOACTIVITY. An atom consists of protons, neutrons and electrons.
RADIOACTIVITY An atom consists of protons, neutrons and electrons. - Protons and neutrons are inside the nucleus - Electrons revolve around the nucleus in specific orbits ATOMIC NUMBER: - Total number
More informationand 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 informationMultiple 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 informationCard #1/28. Card #2/28. Science Revision P2. Science Revision P2. Science Revision P2. Card #4/28. Topic: F = ma. Topic: Resultant Forces
Card #1/28 Card #2/28 Topic: Resultant Forces Topic: F = ma Topic: Distance-TIme Graphs Card #3/28 Card #4/28 Topic: Velocity-Time Graphs Card #2/28 Card #1/28 Card #4/28 Card #3/28 Card #5/28 Card #6/28
More informationUNIT 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 informationName 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 informationJournal 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= : K A
Atoms and Nuclei. State two limitations of JJ Thomson s model of atom. 2. Write the SI unit for activity of a radioactive substance. 3. What observations led JJ Thomson to conclusion that all atoms have
More informationSCIENCE 10: (7.1) ATOMIC THEORY, ISOTOPES AND RADIOACTIVE DECAY Name: Date: Block: (Textbook Reference pp in BC Science 10) into an
SCIENCE 10: (7.1) ATOMIC THEORY, ISOTOPES AND RADIOACTIVE DECAY Name: Date: Block: (Textbook Reference pp. 286-301 in BC Science 10) Natural background radiation: It has the ability to interact with an
More informationAtoms 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 informationSection 2: Nuclear Fission and Fusion. Preview Key Ideas Bellringer Nuclear Forces Nuclear Fission Chain Reaction Nuclear Fusion
: Nuclear Fission and Fusion Preview Key Ideas Bellringer Nuclear Forces Nuclear Fission Chain Reaction Nuclear Fusion Key Ideas What holds the nuclei of atoms together? What is released when the nucleus
More informationUnit 1 Atomic Structure
Unit 1 Atomic Structure Defining the Atom I. Atomic Theory A. Modern Atomic Theory 1. All matter is made up of very tiny particles called atoms 2. Atoms of the same element are chemically alike 3. Individual
More informationUnit 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 informationNuclear Powe. Bronze Buddha at Hiroshima
Nuclear Powe Bronze Buddha at Hiroshima Nuclear Weapons Nuclear Power Is it Green & Safe? Nuclear Waste 250,000 tons of Spent Fuel 10,000 tons made per year Health Effects of Ionizing Radiation Radiocarbon
More informationCh 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 informationNuclear 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 informationNuclear 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 informationUnit 1 Atomic Structure
Unit 1 Atomic Structure 3-1 The Atom: From Philosophical Idea to Scientific Theory I. Atomic Theory A. Modern Atomic Theory 1. All matter is made up of very tiny particles called atoms 2. Atoms of the
More informationThe Atomic Nucleus & Radioactive Decay. Major Constituents of an Atom 4/28/2016. Student Learning Outcomes. Analyze radioactive decay and its results
The Atomic Nucleus & Radioactive Decay ( Chapter 10) Student Learning Outcomes Analyze radioactive decay and its results Differentiate between nuclear fission and fusion Major Constituents of an Atom U=unified
More informationNuclear fission and fusion are processes that involve extremely large amounts of energy.
Nuclear Reactions & Energy Nuclear fission and fusion are processes that involve extremely large amounts of energy. Fission = the splitting of a large nucleus into two smaller nuclei, subatomic particles
More informationRadioactivity pp Topic 9: Nuclear Physics Ch. 10. Radioactivity. Radioactivity
Topic 9: Nuclear Physics Ch. 10 pp.244-249 results from radioactive decay, which is the process in which unstable atomic nuclei transform and emit radiation. has existed longer than the human race. Unstable
More informationName Date Class NUCLEAR RADIATION. alpha particle beta particle gamma ray
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
More informationStudents will distinguish the characteristics and components of radioactivity.
Students will distinguish the characteristics and components of radioactivity. A. Differentiate among alpha, beta, and gamma radiation. B. Differentiate between fission and fusion. C. Explain the process
More informationNuclear Energy. Nuclear Structure and Radioactivity
Nuclear Energy Nuclear Structure and Radioactivity I. Review - Periodic Table A. Atomic Number: The number of protons in the nucleus of an atom B. Atomic Mass: The sum of the mass of protons, neutrons
More informationName 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 informationNotes: 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 informationFrom 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 informationUnit 2 Exam - Atomic Structure and Nuclear
1. The atomic number of an atom is always equal to the total number of. neutrons in the nucleus. protons in the nucleus 5. The mass number of an atom is equal to the number of. neutrons, only. protons,
More informationCH 222 Chapter Twenty-one Concept Guide
CH 222 Chapter Twenty-one Concept Guide 1. Terminology Alpha Radiation (α): Beta Radiation (β): Gamma Radiation (γ): Nuclear Reaction: Nucleons: Radioactive Decay Series: Positrons: Nuclear Binding Energy:
More informationName: 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 informationAim: What are the two types of Nuclear. Reactions? Do Now: 1. Get into your groups and compare your answers to your homework.
Aim: What are the two types of Nuclear Reactions? Do Now: 1. Get into your groups and compare your answers to your homework. Nuclear Energy In nuclear reaction, mass is converted into energy; there is
More informationChapter 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 informationChapter 10. Table of Contents. Section 1 What Is Radioactivity? Section 2 Nuclear Fission and Fusion. Section 3 Nuclear Radiation Today
Nuclear Chemistry Table of Contents Section 1 What Is Radioactivity? Section 2 Nuclear Fission and Fusion Section 3 Nuclear Radiation Today Section 1 What Is Radioactivity? Bellringer Before studying about
More informationNuclear 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 informationChapter 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 informationThe sources include Am-241 which emits alpha radiation, Sr-90 which emits beta radiation and Co-60 which emits gamma radiation.
1 The physics department in a college has a number of radioactive sources which are used to demonstrate the properties of ionising radiations. The sources include Am-241 which emits alpha radiation, Sr-90
More informationYear 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 informationAtoms have two separate parts. The nucleus and the electron cloud.
Name Ch. 5 - Atomic Structure Pre-AP Modern Atomic Theory All atoms are made of three subatomic (smaller than the atom) particles: the protons, the electrons and the neutrons. (P.E.N. s) There are particles
More informationChapter 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 informationThere are 82 protons in a lead nucleus. Why doesn t the lead nucleus burst apart?
Question 32.1 The Nucleus There are 82 protons in a lead nucleus. Why doesn t the lead nucleus burst apart? a) Coulomb repulsive force doesn t act inside the nucleus b) gravity overpowers the Coulomb repulsive
More informationNuclear 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 informationAtomic Concepts and Nuclear Chemistry Regents Review
1. In the late 1800s, experiments using cathode ray tubes led to the discovery of the 10.Compared to an atom of phosphorus-31, an atom of sulfur-32 contains A) electron B) neutron C) positron D) proton
More informationIsotopes 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 informationCHAPTER 19 THE ATOMIC NUCLEUS NUCLEAR STRUCTURE The nucleus consists of protons and neutrons. A protonis a positively charged particle having mass 1.6726 x 10(-27) kg and charge 1.6 x 10(-19) coulomb.
More informationRADIOACTIVITY & HALF-LIFE Part 3
RADIOACTIVITY & HALF-LIFE Part 3 Half-Life Half-life: is the rate of decay for a radioactive isotope. is the time required for half of an original quantity of an element to decay. is constant and independent
More informationNuclear 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 information25.1. 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 informationPhysics 30: Chapter 8 Exam Nuclear
Physics 30: Chapter 8 Exam Nuclear Name: Date: Mark: /34 Numeric Response. Place your answers to the numeric response questions, with units, in the blanks at the side of the page. (1 mark each) 1. A 100
More informationNotes: 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 informationChapter 10 Section 4 Notes
Chapter 10 Section 4 Notes This painting of an alchemist s laboratory was made around 1570. For centuries, these early scientists, known as alchemists, tried to use chemical reactions to make gold. The
More information5 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 information10.4 Fission and Fusion
This painting of an alchemist s laboratory was made around 1570. For centuries, these early scientists, known as alchemists, tried to use chemical reactions to make gold. The alchemists failed in their
More informationD) 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 informationChapter 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 informationRADIOACTIVITY: 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 information6-4 Atomic structure Physics
6-4 Atomic structure Physics.0 Figure shows a helium atom. Figure. Use the words in the box to label the diagram. electron neutron proton.2 An alpha particle is the same as the nucleus of a helium atom.
More informationChapter 12: Nuclear Reaction
Chapter 12: Nuclear Reaction A nuclear reaction occurs when a nucleus is unstable or is being bombarded by a nuclear particle. The product of a nuclear reaction is a new nuclide with an emission of a nuclear
More informationSlide 1 / 57. Nuclear Physics & Nuclear Reactions Practice Problems
Slide 1 / 57 Nuclear Physics & Nuclear Reactions Practice Problems Slide 2 / 57 Multiple Choice Slide 3 / 57 1 The atomic nucleus consists of: A B C D E Electrons Protons Protons and electrons Protons
More informationRegents review Nuclear Chemistry
2011-2012 1. Given the nuclear equation: 14 7N + X 16 8O + 2 1H What is particle X? A) an alpha particle B) a beta particle C) a deuteron D) a triton 2. The nucleus of a radium-226 atom is unstable, which
More informationRadioactive Decay What is Radioactivity? http://explorecuriocity.org/explore/articleid/3033 http://explorecuriocity.org/explore/articleid/3035 http://explorecuriocity.org/explore/articleid/2160 Quick Review
More informationRadioactive 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 informationFigure 1. Page 1 of 6
Page 1 of 6 Physical Science Unit 1 Test. Atomic & Nuclear Theory: Kinetic Molecular Theory: Gas Laws 1. According to Charles Law, if you have a balloon inside a car at noon during a hot summer day the
More informationMultiple Choice Questions
Nuclear Physics & Nuclear Reactions Practice Problems PSI AP Physics B 1. The atomic nucleus consists of: (A) Electrons (B) Protons (C)Protons and electrons (D) Protons and neutrons (E) Neutrons and electrons
More informationAtomic Structure and Radioactivity
Atomic Structure and Radioactivity Models of the atom know: Plum pudding model of the atom and Rutherford and Marsden s alpha experiments, being able to explain why the evidence from the scattering experiment
More information... (1) The diagram shows how aluminium sheet is rolled to form foil of constant thickness. rollers source of radiation
PACK G QUESTIONS 1. The three main types of radioactive emission are called alpha, beta and gamma. The diagram shows the penetrations of alpha, beta and gamma radiation. thin paper card aluminium lead
More informationUnit 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 informationSection 9: Natural Transmutations: Alpha, Beta, Gamma
Section 9: Natural Transmutations: Alpha, Beta, Gamma Nuclear Stability In Physics 2204, you learned that there are only four basic forces in nature (that we know about!): the gravitational force the electromagnetic
More informationRADIOACTIVITY: 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 informationda 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 informationP7 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 informationNuclear forces and Radioactivity. Two forces are at work inside the nucleus of an atom
Nuclear forces and Radioactivity Two forces are at work inside the nucleus of an atom Forces act in opposing directions Electrostatic repulsion: pushes protons apart Strong nuclear force: pulls protons
More informationParticles involved proton neutron electron positron gamma ray 1
TOPIC : Nuclear and radiation chemistry Nuclide - an atom with a particular mass number and atomic number Isotopes - nuclides with the same atomic number (Z) but different mass numbers (A) Notation A Element
More informationPhysics 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 informationName Period. CRHS Academic Chemistry Unit 3 - Atomic Structure & Nuclear Chemistry. Homework. Due Date Assignment On-Time (100) Late (70)
Name Period CRHS Academic Chemistry Unit 3 - Atomic Structure & Nuclear Chemistry Homework Due Date Assignment On-Time (100) Late (70) 3.1 3.2 3.3 3.4 Warm-Ups EC Notes, Homework, Exam Reviews and Their
More information1ST 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 informationLecture 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 informationRadioisotopes. alpha. Unstable isotope. stable. beta. gamma
Nuclear Chemistry Nuclear Chemistry Nucleus of an atom contains protons and neutrons Strong forces (nuclear force) hold nucleus together Protons in nucleus have electrostatic repulsion however, strong
More informationNonrenewable 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 informationChapter 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 informationUnit 1 Test A Atomic Theory & Nuclear Decay 1. Which of these BEST describes any two atoms of the same element? a. same number of protons
1. Which of these BEST describes any two atoms of the same element? same number of protons same number of chemical bonds same number of neutrons same number of particles in the nucleus Self Assessment
More informationPart 12- Physics Paper 1 Atomic Structure Application Questions Triple Science
Part 12- Physics Paper 1 Atomic Structure Application Questions Triple Science Internal energy and energy transfers Internal energy and energy transfers Changes of state and the particle model Particle
More informationRecap I Lecture 41 Matthias Liepe, 2012
Recap I Lecture 41 Matthias Liepe, 01 Recap II Nuclear Physics The nucleus Radioactive decay Fission Fusion Particle Physics: What is the Higgs? Today: Nuclear Physics: The Nucleus Positive charge and
More informationSAVE 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 informationChapter 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 informationNuclear Physics. Radioactivity. # protons = # neutrons. Strong Nuclear Force. Checkpoint 4/17/2013. A Z Nucleus = Protons+ Neutrons
Marie Curie 1867-1934 Radioactivity Spontaneous emission of radiation from the nucleus of an unstable isotope. Antoine Henri Becquerel 1852-1908 Wilhelm Roentgen 1845-1923 Nuclear Physics A Z Nucleus =
More information2 Energy from the Nucleus
CHAPTER 4 2 Energy from the Nucleus SECTION Atomic Energy BEFORE YOU READ After you read this section, you should be able to answer these questions: What is nuclear fission? What is nuclear fusion? What
More informationThe basic structure of an atom is a positively charged nucleus composed of both protons and neutrons surrounded by negatively charged electrons.
4.4 Atomic structure Ionising radiation is hazardous but can be very useful. Although radioactivity was discovered over a century ago, it took many nuclear physicists several decades to understand the
More informationThe Electromagnetic Spectrum. 7.1 Atomic Theory and Radioactive Decay. Isotopes. 19K, 19K, 19K Representing Isotopes
7.1 Atomic Theory and Radioactive Decay Natural background radiation exists all around us. Radioactivity is the release of high energy particles or waves When atoms lose high energy particles and waves,
More information