Nuclear Binding, Radioactivity
|
|
- Paul Arnold
- 6 years ago
- Views:
Transcription
1 Physics 102: Lecture 28 Nuclear Binding, Radioactivity Physics 102: Lecture 27, Slide 1
2 Recall: Nuclear Physics A Z 6 3 Li Nucleus = Protons+ Neutrons nucleons Z = proton number (atomic number) Gives chemical properties (and name) N = neutron number A = nucleon number (atomic mass number) Gives you mass density of element Physics 102: Lecture 27, Slide 2 A=N+Z Periodic_Table
3 Preflight 27.1 A material is known to be an isotope of lead Based on this information which of the following can you specify? 1) The atomic mass number 2) The neutron number 3) The number of protons Physics 102: Lecture 27, Slide 3
4 Strong Nuclear Force Hydrogen atom: Binding energy =13.6eV (of electron to nucleus) Coulomb force electron proton neutron proton Simplest Nucleus: Deuteron=neutron+proton (Isotope of H) Very strong force Binding energy of deuteron = ev or 2.2Mev! That s around 200,000 times bigger! Physics 102: Lecture 27, Slide 4
5 # protons = # neutrons Pauli Principle - neutrons and protons have spin like electron, and thus m s = ±1/2. n n p p n n p p Can get 4 nucleons into n=1 state. Energy will favor N=Z But protons repel one another (Coulomb Force) and when Z is large it becomes harder to put more protons into a nucleus without adding even more neutrons to provide more of the Strong Force. For this reason, in heavier nuclei N>Z. Physics 102: Lecture 27, Slide 5 7
6 Deuteron Binding Energy 2.2 MeV ground state Physics 102: Lecture 27, Slide 6
7 Nuclei have energy level (just like atoms) energy needed to remove a neutron from 12 C is 18.7 MeV energy needed to remove a proton from 12 C is 16.0 MeV Physics 102: Lecture 27, Slide 7 12 C energy levels Note the energy scale is MeV rather than ev
8 Preflight 27.2 Where does the energy released in the nuclear reactions of the sun come from? (1) covalent bonds between atoms (2) binding energy of electrons to the nucleus (3) binding energy of nucleons Physics 102: Lecture 27, Slide 8
9 Binding Energy Einstein s famous equation E = m c 2 proton: mc 2 =(1.67x10-27 kg)(3x10 8 m/s) 2 =1.50x10-10 J Proton: mc 2 = 938.3MeV Neutron: mc 2 = 939.5MeV Adding these, get MeV Deuteron: mc 2 =1875.6MeV Physics 102: Lecture 27, Slide 9 Difference is Binding energy, 2.2MeV M Deuteron = M Proton + M Neutron Binding Energy
10 ACT: Binding Energy Which system weighs more? 1) Two balls attached by a relaxed spring. 2) Two balls attached by a stretched spring. 3) They have the same weight. Physics 102: Lecture 27, Slide 10
11 Iron (Fe) has most binding energy/nucleon. Lighter have too few nucleons, heavier have too many. 10 Binding Energy Plot BINDING ENERGY in MeV/nucleon Fission U Fission = Breaking large atoms into small Fusion = Combining small atoms into large Physics 102: Lecture 27, Slide 11
12 Preflight 27.3 Which element has the highest binding energy/nucleon? Neon (Z=10) Iron (Z=26) Iodine (Z=53) Physics 102: Lecture 27, Slide 12
13 Preflight 27.4 Which of the following is most correct for the total binding energy of an Iron atom (Z=26)? 9 MeV 234 MeV 270 MeV 504 Mev Physics 102: Lecture 27, Slide 13
14 3 Types of Radioactivity B field into screen Radioactive sources α particles: 4 2He nuclei β particles: electrons detector Easily Stopped Stopped by metal Physics 102: Lecture 27, Slide 14 γ : photons (more energetic than x-rays) penetrate!
15 Decay Rules 1) Nucleon Number (A) is conserved. 2) Atomic Number (Z) is conserved. 3) Energy and momentum are conserved. α: example U Th +α recall 4 2He =α 1) 238 = Nucleon number conserved 2) 92 = Charge conserved β: example n 1p 1 A * A γ: example P P+ γ Z Z e ν Needed to conserve momentum. Physics 102: Lecture 27, Slide 15
16 Preflight 27.6 A nucleus undergoes α decay. Which of the following is FALSE? 1. Nucleon number decreases by 4 2. Neutron number decreases by 2 3. Charge on nucleus increases by 2 Physics 102: Lecture 27, Slide 16
17 Preflight Th The nucleus undergoes decay. Which of the following is true? 1. The number of protons in the daughter nucleus increases by one. 2. The number of neutrons in the daughter nucleus increases by one. β Physics 102: Lecture 27, Slide 17
18 ACT: Decay Which of the following decays is NOT allowed? U Th +α Po 82Pb C N + γ K P+ e + ν He Physics 102: Lecture 27, Slide 18
19 Radioactive decay rates Decays per second, or activity ΔN Δt = λn decay constant No. of nuclei present If the number of radioactive nuclei present is cut in half, how does the activity change? 1) It remains the same 2) It is cut in half 3) It doubles Preflight 27.8 Physics 102: Lecture 27, Slide 19
20 ACT: Radioactivity Decays per second, or activity ΔN Δt = λn decay constant No. of nuclei present Start with C atoms. After 6000 years, there are only 8 left. How many will be left after another 6000 years? 1) 0 2) 4 3) 8 Physics 102: Lecture 27, Slide 20
21 Decay Function N(t ) = N 0 e λt t T = N 0 2 1/2 Physics 102: Lecture 27, Slide 21 time
22 Radioactivity Quantitatively Decays per second, or activity Survival: ΔN Δt = λn decay constant N(t ) = N 0 e λt No. of nuclei present Instead of base e we can use base 2: Physics 102: Lecture 27, Slide 22 e λt = 2 No. of nuclei present at time t No. we started with at t=0 t T 1/2 where T1/2 = λ Half life Then we can write N(t ) = N 0 e λt t = N 0 2 T 1/2
23 ACT/Preflight 27.9 The half-life for beta-decay of 14 C is ~6,000 years. You test a fossil and find that only 25% of its 14 C is un-decayed. How old is the fossil? 1. 3,000 years 2. 6,000 years 3. 12,000 years Physics 102: Lecture 27, Slide 25
24 Summary Nuclear Reactions Nucleon number conserved Charge conserved Energy/Momentum conserved α particles = 4 2He nuclei β - particles = electrons γ particles = high-energy photons Survival: N(t ) = N 0 e λt T 1/2 = λ Decays Half-Life is time for ½ of atoms to decay Physics 102: Lecture 27, Slide 26
Nuclear Binding, Radioactivity
Physics 102: Lecture 27 Nuclear Binding, Radioactivity Make sure your grade book entries are correct e.g. HOUR EXAM EX / AB! Ex=excused / AB=0 (absent, no excuse) Please fill out on-line ICES forms Physics
More informationNuclear Binding, Radioactivity
Physics 102: Lecture 28 Nuclear Binding, Radioactivity Physics 102: Lecture 27, Slide 1 Nuclear Physics A Z 6 3 Li 7 Li 3 Physics 102: Lecture 26, Slide 2 Z = proton number ( atomic number ) Gives chemical
More informationPhysics 102: Lecture 28
Physics 102: Lecture 28 Nuclear Binding, Radioactivity E=mc 2 Physics 102: Lecture 27, Slide 1 End-of-semester info Final exam info: A1: Thursday, May 15, 1:30-4:30pm A2: Friday, May 9, 1:30-4:30pm Approximately
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 informationRadioactivity. Nuclear Physics. # neutrons vs# protons Where does the energy released in the nuclear 11/29/2010 A=N+Z. Nuclear Binding, Radioactivity
Physics 1161: Lecture 25 Nuclear Binding, Radioactivity Sections 32-1 32-9 Marie Curie 1867-1934 Radioactivity Spontaneous emission of radiation from the nucleus of an unstable isotope. Antoine Henri Becquerel
More informationPhys 102 Lecture 27 The strong & weak nuclear forces
Phys 102 Lecture 27 The strong & weak nuclear forces 1 4 Fundamental forces of Nature Today Gravitational force (solar system, galaxies) Electromagnetic force (atoms, molecules) Strong force (atomic nuclei)
More informationThe strong & weak nuclear forces
Phys 102 Lecture 27 The strong & weak nuclear forces 1 4 Fundamental forces of Nature Today Gravitational force (solar system, galaxies) Electromagnetic force (atoms, molecules) Strong force (atomic nuclei)
More informationNice Try. Introduction: Development of Nuclear Physics 20/08/2010. Nuclear Binding, Radioactivity. SPH4UI Physics
SPH4UI Physics Modern understanding: the ``onion picture Nuclear Binding, Radioactivity Nucleus Protons tom and neutrons Let s see what s inside! 3 Nice Try Introduction: Development of Nuclear Physics
More informationPhysics 102: Lecture 26. X-rays. Make sure your grade book entries are correct. Physics 102: Lecture 26, Slide 1
Physics 102: Lecture 26 X-rays Make sure your grade book entries are correct. Physics 102: Lecture 26, Slide 1 But first a quick review of the periodic table http://www.youtube.com/watch?v=smwlzwgmmwc
More informationThursday, April 23, 15. Nuclear Physics
Nuclear Physics Some Properties of Nuclei! All nuclei are composed of protons and neutrons! Exception is ordinary hydrogen with just a proton! The atomic number, Z, equals the number of protons in the
More informationPhysics 102: Lecture 26. X-rays. Make sure your grade book entries are correct. Physics 102: Lecture 26, Slide 1
Physics 102: Lecture 26 X-rays Make sure your grade book entries are correct. Physics 102: Lecture 26, Slide 1 X-Rays Photons with energy in approx range 100eV to 100,000eV. This large energy means they
More informationProperties of the nucleus. 8.2 Nuclear Physics. Isotopes. Stable Nuclei. Size of the nucleus. Size of the nucleus
Properties of the nucleus 8. Nuclear Physics Properties of nuclei Binding Energy Radioactive decay Natural radioactivity Consists of protons and neutrons Z = no. of protons (Atomic number) N = no. of neutrons
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 informationChemistry 1000 Lecture 3: Nuclear stability. Marc R. Roussel
Chemistry 1000 Lecture 3: Nuclear stability Marc R. Roussel Radioactive decay series Source: Wikimedia commons, http://commons.wikimedia.org/wiki/file: Decay_Chain_Thorium.svg Forces between nucleons Electrostatic
More informationLECTURE 25 NUCLEAR STRUCTURE AND STABILITY. Instructor: Kazumi Tolich
LECTURE 25 NUCLEAR STRUCTURE AND STABILITY Instructor: Kazumi Tolich Lecture 25 2 30.1 Nuclear structure Isotopes Atomic mass 30.2 Nuclear stability Biding energy 30.3 Forces and energy in the nucleus
More informationBasic Nuclear Theory. Lecture 1 The Atom and Nuclear Stability
Basic Nuclear Theory Lecture 1 The Atom and Nuclear Stability Introduction Nuclear power is made possible by energy emitted from either nuclear fission or nuclear fusion. Current nuclear power plants utilize
More informationNuclear Physics and Radioactivity
Nuclear Physics and Radioactivity Structure and Properties of the Nucleus Nucleus is made of protons and neutrons Proton has positive charge: Neutron is electrically neutral: Neutrons and protons are collectively
More informationChem 481 Lecture Material 1/23/09
Chem 481 Lecture Material 1/23/09 Nature of Radioactive Decay Radiochemistry Nomenclature nuclide - This refers to a nucleus with a specific number of protons and neutrons. The composition of a nuclide
More informationTHE NUCLEUS OF AN ATOM
VISUAL PHYSICS ONLINE THE NUCLEUS OF AN ATOM Models of the atom positive charge uniformly distributed over a sphere J. J. Thomson model of the atom (1907) ~2x10-10 m plum-pudding model: positive charge
More informationProperties of the nucleus. 9.1 Nuclear Physics. Isotopes. Stable Nuclei. Size of the nucleus. Size of the nucleus
Properties of the nucleus 9. Nuclear Physics Properties of nuclei Binding Energy Radioactive decay Natural radioactivity Consists of protons and neutrons Z = no. of protons (tomic number) N = no. of neutrons
More informationNuclear 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 informationAtomic Quantum number summary. From last time. Na Optical spectrum. Another possibility: Stimulated emission. How do atomic transitions occur?
From last time Hydrogen atom Multi-electron atoms This week s honors lecture: Prof. Brad Christian, Positron Emission Tomography Course evaluations next week Tues. Prof Montaruli Thurs. Prof. Rzchowski
More informationChemistry 201: General Chemistry II - Lecture
Chemistry 201: General Chemistry II - Lecture Dr. Namphol Sinkaset Chapter 21 Study Guide Concepts 1. There are several modes of radioactive decay: (1) alpha (α) decay, (2) beta (β) decay, (3) gamma (γ)
More informationGeneral Physics (PHY 2140)
General Physics (PHY 2140) Lecture 37 Modern Physics Nuclear Physics Radioactivity Nuclear reactions http://www.physics.wayne.edu/~apetrov/phy2140/ Chapter 29 1 Lightning Review Last lecture: 1. Nuclear
More informationLecture 33 Chapter 22, Sections 1-2 Nuclear Stability and Decay. Energy Barriers Types of Decay Nuclear Decay Kinetics
Lecture 33 Chapter 22, Sections -2 Nuclear Stability and Decay Energy Barriers Types of Decay Nuclear Decay Kinetics Nuclear Chemistry Nuclei Review Nucleons: protons and neutrons Atomic number number
More informationPhys102 Lecture 29, 30, 31 Nuclear Physics and Radioactivity
Phys10 Lecture 9, 30, 31 Nuclear Physics and Radioactivity Key Points Structure and Properties of the Nucleus Alpha, Beta and Gamma Decays References 30-1,,3,4,5,6,7. Atomic Structure Nitrogen (N) Atom
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 informationNuclear Physics. PHY232 Remco Zegers Room W109 cyclotron building.
Nuclear Physics PHY232 Remco Zegers zegers@nscl.msu.edu Room W109 cyclotron building http://www.nscl.msu.edu/~zegers/phy232.html Periodic table of elements We saw that the periodic table of elements can
More informationNuclear Chemistry Lecture Notes: I Radioactive Decay A. Type of decay: See table. B. Predicting Atomic Stability
Nuclear Chemistry Lecture Notes: I Radioactive Decay A. Type of decay: See table Type Symbol Charge Mass (AMU) Effect on Atomic # Alpha α +2 4 decrease by 2 Beta β- -1 0 increase electron by 1 Beta β+
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 informationGeneral Physics (PHY 2140)
General Physics (PHY 140) Lecture 18 Modern Physics Nuclear Physics Nuclear properties Binding energy Radioactivity The Decay Process Natural Radioactivity Last lecture: 1. Quantum physics Electron Clouds
More informationInstead, the probability to find an electron is given by a 3D standing wave.
Lecture 24-1 The Hydrogen Atom According to the Uncertainty Principle, we cannot know both the position and momentum of any particle precisely at the same time. The electron in a hydrogen atom cannot orbit
More informationThe number of protons in the nucleus is known as the atomic number Z, and determines the chemical properties of the element.
I. NUCLEAR PHYSICS I.1 Atomic Nucleus Very briefly, an atom is formed by a nucleus made up of nucleons (neutrons and protons) and electrons in external orbits. The number of electrons and protons is equal
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 informationPhysics 142 Modern Physics 2 Page 1. Nuclear Physics
Physics 142 Modern Physics 2 Page 1 Nuclear Physics The Creation of the Universe was made possible by a grant from Texas Instruments. Credit on a PBS Program Overview: the elements are not elementary The
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 informationLECTURE 23 NUCLEI. Instructor: Kazumi Tolich
LECTURE 23 NUCLEI Instructor: Kazumi Tolich Lecture 23 2 Reading chapter 32.1 to 32.2 Nucleus Radioactivity Mass and energy 3 The famous equation by Einstein tells us that mass is a form of energy. E =
More informationABC Math Student Copy
Page 1 of 17 Physics Week 16(Sem. ) Name The Nuclear Chapter Summary Nuclear Structure Atoms consist of electrons in orbit about a central nucleus. The electron orbits are quantum mechanical in nature.
More informationNUCLEI, RADIOACTIVITY AND NUCLEAR REACTIONS
NUCLEI, RADIOACTIVITY AND NUCLEAR REACTIONS VERY SHORT ANSWER QUESTIONS Q-1. Which of the two is bigger 1 kwh or 1 MeV? Q-2. What should be the approximate minimum energy of a gamma ray photon for pair
More informationNUCLEAR PHYSICS. Challenging MCQ questions by The Physics Cafe. Compiled and selected by The Physics Cafe
NUCLEAR PHYSICS Challenging MCQ questions by The Physics Cafe Compiled and selected by The Physics Cafe 1 The activity of a radioactive sample decreases to one third of its original activity Ao in a period
More informationChapter 44. Nuclear Structure
Chapter 44 Nuclear Structure Milestones in the Development of Nuclear Physics 1896: the birth of nuclear physics Becquerel discovered radioactivity in uranium compounds Rutherford showed the radiation
More informationNJCTL.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[2] State in what form the energy is released in such a reaction.... [1]
(a) The following nuclear reaction occurs when a slow-moving neutron is absorbed by an isotope of uranium-35. 0n + 35 9 U 4 56 Ba + 9 36Kr + 3 0 n Explain how this reaction is able to produce energy....
More informationLittle Boy Atomic Bomb. Spring 2010 PHYS 53 Eradat SJSU 2
Chapter 43 Nuclear Physics 1. Properties of nuclei 2. Nuclear binding and nuclear structure 3. Nuclear stability and radioactivity 4. Activities and half lives 5. Biological effects of radiation 6. Nuclear
More informationComposite Nucleus (Activated Complex)
Lecture 10: Nuclear Potentials and Radioactive Decay I. Nuclear Stability and Basic Decay Modes A. Schematic Representation: Synthesis Equilibration Decay X + Y + Energy A Z * Z ( 10 20 s) ( ~ 10 16 10
More informationPreview. Subatomic Physics Section 1. Section 1 The Nucleus. Section 2 Nuclear Decay. Section 3 Nuclear Reactions. Section 4 Particle Physics
Subatomic Physics Section 1 Preview Section 1 The Nucleus Section 2 Nuclear Decay Section 3 Nuclear Reactions Section 4 Particle Physics Subatomic Physics Section 1 TEKS The student is expected to: 5A
More informationFission and Fusion Book pg cgrahamphysics.com 2016
Fission and Fusion Book pg 286-287 cgrahamphysics.com 2016 Review BE is the energy that holds a nucleus together. This is equal to the mass defect of the nucleus. Also called separation energy. The energy
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 informationLecture 1. Introduction to Nuclear Science
Lecture 1 Introduction to Nuclear Science Composition of atoms Atoms are composed of electrons and nuclei. The electrons are held in the atom by a Coulomb attraction between the positively charged nucleus
More informationNuclear Physics. Chapter 43. PowerPoint Lectures for University Physics, Thirteenth Edition Hugh D. Young and Roger A. Freedman
Chapter 43 Nuclear Physics PowerPoint Lectures for University Physics, Thirteenth Edition Hugh D. Young and Roger A. Freedman Lectures by Wayne Anderson Goals for Chapter 43 To understand some key properties
More informationDescribe the structure of the nucleus Calculate nuclear binding energies Identify factors affecting nuclear stability
Atomic and Nuclear Structure George Starkschall, Ph.D. Lecture Objectives Describe the atom using the Bohr model Identify the various electronic shells and their quantum numbers Recall the relationship
More informationA. Incorrect! Do not confuse Nucleus, Neutron and Nucleon. B. Incorrect! Nucleon is the name given to the two particles that make up the nucleus.
AP Physics - Problem Drill 24: Nuclear Physics 1. Identify what is being described in each of these statements. Question 01 (1) It is held together by the extremely short range Strong force. (2) The magnitude
More informationNuclear Binding Energy
Nuclear Energy Nuclei contain Z number of protons and (A - Z) number of neutrons, with A the number of nucleons (mass number) Isotopes have a common Z and different A The masses of the nucleons and the
More informationRadioactivity, Radiation and the Structure of the atom
Radioactivity, Radiation and the Structure of the atom What do you know (or can we deduce) about radioactivity from what you have learned in the course so far? How can we learn about whether radioactive
More informationMasses and binding energies
Masses and binding energies Introduction to Nuclear Science Simon Fraser University Spring 2011 NUCS 342 January 10, 2011 NUCS 342 (Lecture 1) January 10, 2011 1 / 23 Outline 1 Notation NUCS 342 (Lecture
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 informationMockTime.com. Ans: (b) Q6. Curie is a unit of [1989] (a) energy of gamma-rays (b) half-life (c) radioactivity (d) intensity of gamma-rays Ans: (c)
Chapter Nuclei Q1. A radioactive sample with a half life of 1 month has the label: Activity = 2 micro curies on 1 8 1991. What would be its activity two months earlier? [1988] 1.0 micro curie 0.5 micro
More informationAtoms and Nuclei 1. The radioactivity of a sample is X at a time t 1 and Y at a time t 2. If the mean life time of the specimen isτ, the number of atoms that have disintegrated in the time interval (t
More informationNuclear Binding & Stability. Stanley Yen TRIUMF
Nuclear Binding & Stability Stanley Yen TRIUMF UNITS: ENERGY Energy measured in electron-volts (ev) 1 volt battery boosts energy of electrons by 1 ev 1 volt battery 1 MeV = 106 ev 1 e-volt = 1.6x10-19
More informationChapter 22. Preview. Objectives Properties of the Nucleus Nuclear Stability Binding Energy Sample Problem. Section 1 The Nucleus
Section 1 The Nucleus Preview Objectives Properties of the Nucleus Nuclear Stability Binding Energy Sample Problem Section 1 The Nucleus Objectives Identify the properties of the nucleus of an atom. Explain
More informationIntroduction to Nuclear Physics and Nuclear Decay
Introduction to Nuclear Physics and Nuclear Decay Larry MacDonald macdon@uw.edu Nuclear Medicine Basic Science Lectures September 6, 2011 toms Nucleus: ~10-14 m diameter ~10 17 kg/m 3 Electron clouds:
More informationZ is the atomic number, the number of protons: this defines the element. Isotope: Nuclides of an element (i.e. same Z) with different N.
Lecture : The nucleus and nuclear instability Nuclei are described using the following nomenclature: A Z Element N Z is the atomic number, the number of protons: this defines the element. A is called the
More information12.744/ The Basic Rules, Nuclear Stability, Radioactive Decay and Radioactive Dating
12.744/12.754 The Basic Rules, Nuclear Stability, Radioactive Decay and Radioactive Dating What we see in the earth and oceans is the product of the "cosmic" abundance (i.e. the original) pattern of elements,
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 informationPage 1. ConcepTest Clicker Questions Chapter 32. Physics, 4 th Edition James S. Walker
ConcepTest Clicker Questions Chapter 32 Physics, 4 th Edition James S. Walker There are 82 protons in a lead nucleus. Why doesn t the lead nucleus burst apart? Question 32.1 The Nucleus a) Coulomb repulsive
More informationβ and γ decays, Radiation Therapies and Diagnostic, Fusion and Fission Final Exam Surveys New material Example of β-decay Beta decay Y + e # Y'+e +
β and γ decays, Radiation Therapies and Diagnostic, Fusion and Fission Last Lecture: Radioactivity, Nuclear decay Radiation damage This lecture: nuclear physics in medicine and fusion and fission Final
More informationPhysics 107: Ideas of Modern Physics
Physics 107: Ideas of Modern Physics Exam 3 Apr. 19, 2006 Name ID # Section # On the Scantron sheet, 1) Fill in your name 2) Fill in your student ID # (not your social security #) 3) Fill in your section
More informationPhysics 107: Ideas of Modern Physics
Physics 107: Ideas of Modern Physics Exam 3 Apr. 19, 2006 Name ID # Section # On the Scantron sheet, 1) Fill in your name 2) Fill in your student ID # (not your social security #) 3) Fill in your section
More informationFundamental 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 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 informationAtomic and Nuclear Radii
Atomic and Nuclear Radii By first approx. the nucleus can be considered a sphere with radius given by R 1.25 x A (1/3) {fm} A atomic mass number, fm 10-15 m Since the volume of a sphere is proportional
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 informationChapter 28 Lecture. Nuclear Physics Pearson Education, Inc.
Chapter 28 Lecture Nuclear Physics Nuclear Physics How are new elements created? What are the natural sources of ionizing radiation? How does carbon dating work? Be sure you know how to: Use the right-hand
More informationNuclear Physics 3 8 O+ B. always take place and the proton will be emitted with kinetic energy.
Name: Date: Nuclear Physics 3. A student suggests that the following transformation may take place. Measurement of rest masses shows that 7 7 N+ He 8 O+ total rest mass( N 7 + He ) < total rest mass( O
More informationChemistry 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 informationCLASS 32. NUCLEAR BINDING ENERGY
CLASS 3. NUCLEAR BINDING ENERGY 3.. INTRODUCTION Scientists found that hitting atoms with alpha particles could induce transformations in light elements. (Recall that the capture of an alpha particle by
More informationhttp://imgs.xkcd.com/comics/cell_phones.png Announcements: Thursday: Group A to Hayes 105 for hands-on experience Group B comes here to work on worksheet Both groups: bring your calculator! Next Tuesday
More informationUnit 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 informationThe Nucleus and Radioactivity
Chapter 0 The Nucleus and Radioactivity Practice Problem Solutions Student Textbook page 904. Conceptualize the Problem - The mass defect is the difference of the mass of the nucleus and the sum of the
More informationDr. Claudia Benitez-Nelson. University of South Carolina
Dr. Claudia Benitez-Nelson University of South Carolina cbnelson@geol.sc.edu Understanding The Basics of Radioactivity In order to understand how radionuclides can be used in our environment, we must first
More informationChem 481 Lecture Material 1/30/09
Chem 481 Lecture Material 1/30/09 Nature of Radioactive Decay The Standard Model in physics postulates that all particles in nature are composed of quarks and leptons and that they interact by exchange
More information[1] (c) Some fruits, such as bananas, are naturally radioactive because they contain the unstable isotope of potassium-40 ( K.
(a) State, with a reason, whether or not protons and neutrons are fundamental particles....... [] (b) State two fundamental particles that can be classified as leptons.... [] (c) Some fruits, such as bananas,
More informationNuclear Reactions A Z. Radioactivity, Spontaneous Decay: Nuclear Reaction, Induced Process: x + X Y + y + Q Q > 0. Exothermic Endothermic
Radioactivity, Spontaneous Decay: Nuclear Reactions A Z 4 P D+ He + Q A 4 Z 2 Q > 0 Nuclear Reaction, Induced Process: x + X Y + y + Q Q = ( m + m m m ) c 2 x X Y y Q > 0 Q < 0 Exothermic Endothermic 2
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 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 informationfiziks Institute for NET/JRF, GATE, IIT-JAM, M.Sc. Entrance, JEST, TIFR and GRE in Physics
Institute for ET/JRF, GTE, IIT-JM, M.Sc. Entrance, JEST, TIFR and GRE in Physics. asic Properties of uclei. asic uclear Properties n ordinary hydrogen atom has as its nucleus a single proton, whose charge
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 informationThe IC electrons are mono-energetic. Their kinetic energy is equal to the energy of the transition minus the binding energy of the electron.
1 Lecture 3 Nuclear Decay modes, Nuclear Sizes, shapes, and the Liquid drop model Introduction to Decay modes (continued) Gamma Decay Electromagnetic radiation corresponding to transition of nucleus from
More informationEnd-of-semester info
End-of-semester info Midterm exam 3: raw mean = 72.5, scaled = 75 Final exam info: A1/A11: Thursday May 9, 1:30-4:30pm A2/A22: Tuesday May 7, 1:30-4:30pm Approximately 50 questions Cumulative (all material
More informationChapter 3 Nuclear Properties
CHM 511 Chapter 3 page 1 of 9 Chapter 3 Nuclear Properties Chemistry typically deals with the consideration of electrons: where they are, where they want to go, where they are going. A typical chemical
More informationBase of protection. Radiation Protection. Radiation. Structure of the atom. (ionizing radiations: α-,β-, γ-radiation, X-ray) J E
Base of protection Radiation Protection Properties of the radiations Interaction with matter Physical step: ionization (ionizing radiations: -,β-, γ-radiation, X-ray) Particle ( and β) Electromagnetic
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 informationH 1. Nuclear Physics. Nuclear Physics. 1. Parts of Atom. A. Nuclear Structure. 2b. Nomenclature. 2. Isotopes. AstroPhysics Notes
AstroPhysics Notes Nuclear Physics Dr. Bill Pezzaglia Nuclear Physics A. Nuclear Structure B. Nuclear Decay C. Nuclear Reactions Updated: 0Feb07 Rough draft A. Nuclear Structure. Parts of Atom. Parts of
More informationChapter 3 Radioactivity
Chapter 3 Radioactivity Marie Curie 1867 1934 Discovered new radioactive elements Shared Nobel Prize in physics in 1903 Nobel Prize in Chemistry in 1911 Radioactivity Radioactivity is the spontaneous emission
More informationZ is the atomic number, the number of protons: this defines the element. Isotope: Nuclides of an element (i.e. same Z) with different N.
Lecture : The nucleus and nuclear instability Nuclei are described using the following nomenclature: A Z Element N Z is the atomic number, the number of protons: this defines the element. A is called the
More informationChemistry 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 informationQuestions on Nuclear Physics MS
Questions on Nuclear Physics MS 1. Sketch graph: Acceptably shaped exponential decay curve drawn (1) Activity halving every 8 days (1) 2 80 Activity/MBq 60 40 20 0 Description and differences I contains
More informationNuclear Physics. AP Physics B
Nuclear Physics AP Physics B Nuclear Physics - Radioactivity Before we begin to discuss the specifics of radioactive decay we need to be certain you understand the proper NOTATION that is used. To the
More informationRevision Guide for Chapter 18
Revision Guide for Chapter 18 Contents Student s Checklist Revision Notes Ionising radiation... 4 Biological effects of ionising radiation... 5 Risk... 5 Nucleus... 6 Nuclear stability... 6 Binding energy...
More informationSubatomic Particles. proton. neutron. electron. positron. particle. 1 H or 1 p. 4 α or 4 He. 0 e or 0 β
Nuclear Chemistry Subatomic Particles proton neutron 1n 0 1 H or 1 p 1 1 positron electron 0 e or 0 β +1 +1 0 e or 0 β 1 1 particle 4 α or 4 He 2 2 Nuclear Reactions A balanced nuclear equation has the
More information