Presentation is loading. Please wait.

Presentation is loading. Please wait.

NucE 497A RAMP Class #2 1. NucE 497A RAMP Class #2 2 CHAPTER 2 – ATOMIC AND NUCLEAR PHYSICS 2.1 FUNDAMENTAL PARTICLES Physical world – combinations of.

Published byAdam Jacobs Modified over 8 years ago

Similar presentations

Presentation on theme: "NucE 497A RAMP Class #2 1. NucE 497A RAMP Class #2 2 CHAPTER 2 – ATOMIC AND NUCLEAR PHYSICS 2.1 FUNDAMENTAL PARTICLES Physical world – combinations of."— Presentation transcript:

1 NucE 497A RAMP Class #2 1

2 NucE 497A RAMP Class #2 2 CHAPTER 2 – ATOMIC AND NUCLEAR PHYSICS 2.1 FUNDAMENTAL PARTICLES Physical world – combinations of subatomic (fundamental) particles

3 NucE 497A RAMP Class #2 3 Particles of interest to the NE: –Leptons – subject to weak nuclear forces (electron, positron, and neutrino) –Hadrons – subject to both weak and strong nuclear forces (proton and neutron – baryons)

4 NucE 497A RAMP Class #2 4 Hadrons – composed of quarks, which exchange gluons – strong nuclear forces For NE - we will consider a class of particles, without studying in detail their structure Appendix I – Units and conversion Factors Appendix II – Fundamental Constants and Data

5 NucE 497A RAMP Class #2 5 Electron: Rest mass m e =9.10954x10 -31 kg Charge e=1.60219x10 +19 coulombs Two types: negatrons (-e) and positrons (+e)

6 NucE 497A RAMP Class #2 6 Electron Annihilation

7 NucE 497A RAMP Class #2 7 Proton: Rest mass m p =1.67265x10 -27 kg Positive charge equal to that of the electron

8 NucE 497A RAMP Class #2 8 Neutron: Rest mass m n =1.67495x10 -27 kg Electrically neutral Not stable, except when is bounded into an atomic nucleus Free neutron decays (  -decay) to a proton with an emission of a negative electron and an antineutrino

9 NucE 497A RAMP Class #2 9 Photon: Zero rest mass Travels in vacuum with the speed of light (c=2.9975x10 8 m/sec) Particles associated with electromagnetic waves

10 NucE 497A RAMP Class #2 10 Neutrino: Zero rest mass No electrical charge Appears in the decay of certain nuclei Six types – electron neutrino and antineutrino

11 NucE 497A RAMP Class #2 11 2.2 ATOMIC AND NUCLEAR STRUCTURE Atoms – building blocks of the matter Atom – consist of nucleus, surrounded by cloud of moving electrons Nucleus – composed of protons and neutrons

12 NucE 497A RAMP Class #2 12 Atomic number – total number of protons in a nucleus – Z Total electrical charge - +Ze Neutron number – N Atomic mass number – nucleon number = total number of nucleons in a nucleus – Z+N=A

13 NucE 497A RAMP Class #2 13 Nuclides – Z A X (X – chemical symbol of the element) Isotopes – same Z and different A Isotopic abundance – in atom percent – a/o – percentages of the atoms of an element that are particular isotopes

14 NucE 497A RAMP Class #2 14 2.3 ATOMIC AND MOLECULAR WEIGHT Atomic weight – mass of neutral atom relative to the mass of a neutral 12 C The atomic weight of 12 C is taken to be = 12 M( Z A X) = 12x(m ( Z A X)/m( 12 C))

15 NucE 497A RAMP Class #2 15 Atomic weight of element: M =   I M i /100 Molecular weight – sum of the atomic weights of the constituent atoms Atomic and molecular weights – unit less numbers

16 NucE 497A RAMP Class #2 16 Gram atomic weight (gram molecular weight)-mole-amount of a substance having a mass in grams, equal to the atomic (or molecular) weight of substance Number of atoms (molecules) in a mole of any substance is a constant – Avogadro’s law

17 NucE 497A RAMP Class #2 17 Avogadro’s number – N A =0.6022045x10 24 m( 12 C) = 1.99268x10 -23 g Atomic mass unit – amu – 1amu = (1/12) x m( 12 C) =1.66657x10 -24 g

18 NucE 497A RAMP Class #2 18 2.4 ATOMIC AND NUCLEAR RADII Average atomic radii = 2x10 -10 m Electron density increases with the increase of Z

19 NucE 497A RAMP Class #2 19 Nucleus radii: R=1.25 fm x A 1/3 Fm – fathometers (fm) = 10 -13 cm Uniform nuclear density (V of the nucleus is proportional to A)

20 NucE 497A RAMP Class #2 20 2.5 MASS AND ENERGY Einstein’s theory of relativity E rest = m o c 2 Mass and energy are equivalent and convertible

21 NucE 497A RAMP Class #2 21 Unit of energy – electron volt – eV Df. Kinetic energy of an electron, when it falls through an electrical potential of one volt 1eV=1.60219x10 -19 joule MeV; KeV

22 NucE 497A RAMP Class #2 22 E total =mc 2 E kin = mc 2 -m o c 2 = m o c 2 [(1/  1-v 2 /c 2 )-1] For neutrons: E kin = (1/2) m o v 2 E kin  0.02 E rest

23 NucE 497A RAMP Class #2 23 For photons E=h H – Plank’s constant = 4.136x10 -12 eV-sec - frequency of the electromagnetic wave, associated with photon

24 NucE 497A RAMP Class #2 24 2.6 PARTCLE WAVELENGTHS = h/p p – momentum of the particle p=mv p=  2moE kin = h/(  2moE kin )

25 NucE 497A RAMP Class #2 25 For neutrons: = (2.860x10 -9 )/  E For photons: = (1.240x10 -6 )/E

Download ppt "NucE 497A RAMP Class #2 1. NucE 497A RAMP Class #2 2 CHAPTER 2 – ATOMIC AND NUCLEAR PHYSICS 2.1 FUNDAMENTAL PARTICLES Physical world – combinations of."

Similar presentations

Radioactive Decay. - Alpha Decay The emission of an particle from the nucleus of an atom is called alpha decay An alpha particle is just a helium nucleus.

Radioactive Decay. - Alpha Decay The emission of an particle from the nucleus of an atom is called alpha decay An alpha particle is just a helium nucleus.
Chapter 29 Nuclear Physics.

Chapter 29 Nuclear Physics.
AS Physics – Module 1. Definitions For each term, think of a definition. After 15 seconds, the definition will appear …as if by magic! Then play the ppt.

AS Physics – Module 1. Definitions For each term, think of a definition. After 15 seconds, the definition will appear …as if by magic! Then play the ppt.
Sub-Atomic Particles Another building block of matter?? Richard Lasky – Summer 2010.

Sub-Atomic Particles Another building block of matter?? Richard Lasky – Summer 2010.
Atomic Structure-1 Democritus is credited with proposing the first atomic theory Democritus is credited with proposing the first atomic theory Proust stated.

Atomic Structure-1 Democritus is credited with proposing the first atomic theory Democritus is credited with proposing the first atomic theory Proust stated.
Physics 101: Lecture 29, Pg 1 Physics 101: Lecture 29 Ideal Gas Law & Kinetic Theory l Today’s lecture will cover Textbook Chapter 14.

Physics 101: Lecture 29, Pg 1 Physics 101: Lecture 29 Ideal Gas Law & Kinetic Theory l Today’s lecture will cover Textbook Chapter 14.
Introduction to Radiochemistry NUSC 341-3. Forces in Matter and the Subatomic Particles Chapter 1.

Introduction to Radiochemistry NUSC Forces in Matter and the Subatomic Particles Chapter 1.
MODULE 1 CHAPTER 2 LECTURE OUTLINE.

MODULE 1 CHAPTER 2 LECTURE OUTLINE.
Structure of an Atom.

Structure of an Atom.
Structure of an Atom. What Is an Atom? An atom is often referred to as the building block of matter. Atoms have a nucleus surrounded by an electron cloud.

Structure of an Atom. What Is an Atom? An atom is often referred to as the building block of matter. Atoms have a nucleus surrounded by an electron cloud.
The Periodic Table. Define the following terms. 1. proton 2. neutron 3. electron 4. nucleus.

The Periodic Table. Define the following terms. 1. proton 2. neutron 3. electron 4. nucleus.
Nuclear Physics E = mc 2. Outline Theory of Special Relativity Postulates E = mc 2 The Atom What makes up the atom? What holds the atom together? Quantum.

Nuclear Physics E = mc 2. Outline Theory of Special Relativity Postulates E = mc 2 The Atom What makes up the atom? What holds the atom together? Quantum.
Nuclear Force and Particles

Nuclear Force and Particles
Modern Physics Introduction To examine the fundamental nuclear model To examine nuclear classification To examine nuclear fission and fusion.

Modern Physics Introduction To examine the fundamental nuclear model To examine nuclear classification To examine nuclear fission and fusion.
Nuclear Physics Developed by Mr. D. Patterson.

Nuclear Physics Developed by Mr. D. Patterson.
Nuclear Physics Physics 12. Protons, Neutrons and Electrons  The atom is composed of three subatomic particles: Particle Charge (in C) Symbol Mass (in.

Nuclear Physics Physics 12. Protons, Neutrons and Electrons  The atom is composed of three subatomic particles: Particle Charge (in C) Symbol Mass (in.
Isotopes Mass Defect E = mc2

Isotopes Mass Defect E = mc2
Atomic Structure I. Subatomic Particles.

Atomic Structure I. Subatomic Particles.
Mass Number Atomic Number equals the # of... NUCLEUS ELECTRONS PROTONS NEUTRONS NEGATIVE CHARGE POSITIVE CHARGE NEUTRAL CHARGE ATOM.

Mass Number Atomic Number equals the # of... NUCLEUS ELECTRONS PROTONS NEUTRONS NEGATIVE CHARGE POSITIVE CHARGE NEUTRAL CHARGE ATOM.
Lecture 29 Elementary Particles and Quarks

Lecture 29 Elementary Particles and Quarks

Similar presentations

Ads by Google