Atomic Energy Overview
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Transcript of Atomic Energy Overview
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Atomic Energy OverviewAtomic Energy Overview
Boy Scout Merit BadgeBoy Scout Merit Badge20062006
American Nuclear SocietyAmerican Nuclear Society
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ScheduleSchedule 9:00-9:559:00-9:55 IntroductionIntroduction 10:00-10:40 10:00-10:40 Station 1Station 1 10:45-11:25 10:45-11:25 Station 2Station 2 11:30-12:10 11:30-12:10 LunchLunch 12:15-12:5512:15-12:55 Station 3Station 3 1:00-1:401:00-1:40 Station 4Station 4 1:45-2:251:45-2:25 Station 5Station 5 2:30-3:002:30-3:00 Wrap-Up/Sign Blue CardsWrap-Up/Sign Blue Cards
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Blue CardsBlue Cards
Put my name in appropriate spotPut my name in appropriate spot
Workshop LeaderWorkshop LeaderAddress Line 1Address Line 1Address Line 2Address Line 2Phone NumberPhone Number
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RequirementsRequirements1a. Radiation Effects1a. Radiation Effects1b.1b. Drawing of radiation symbolDrawing of radiation symbol 2. Definitions 2. Definitions 3. Scientists3. Scientists 4a. Model of atoms4a. Model of atoms 4b. Fission pictures4b. Fission pictures 4c. Critical Mass4c. Critical Mass 5c. Time, distance and shielding5c. Time, distance and shielding 5f. X-ray facility5f. X-ray facility 5g. Cloud Chambers5g. Cloud Chambers 6b. US nuclear reactors6b. US nuclear reactors 7. Nuclear Careers7. Nuclear Careers
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Brief History of the AtomBrief History of the Atom 500 BC500 BC DemocritusDemocritus AtomAtom Long timeLong time (Romans (Romans Dark Ages) Dark Ages) 1808 AD1808 AD DaltonDalton Plum PuddingPlum Pudding 19111911 RutherfordRutherford NucleusNucleus 19131913 BohrBohr OrbitsOrbits 1920’s1920’s Many PeopleMany People Quantum MechanicsQuantum Mechanics
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So What is an Atom?So What is an Atom? Atoms are made up of protons, Atoms are made up of protons,
neutrons & electronsneutrons & electrons• Protons: + chargeProtons: + charge• Neutrons: no chargeNeutrons: no charge• Electrons: - chargeElectrons: - charge
Atoms want to have Atoms want to have no net chargeno net charge• #protons = #electrons#protons = #electrons
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Mass of an AtomMass of an Atom MassesMasses
• Proton: 1 amuProton: 1 amu• Neutron: 1 amuNeutron: 1 amu• Electron: .000549 amuElectron: .000549 amu
So mass of atom ~ So mass of atom ~ • #neutrons + #protons#neutrons + #protons
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What is the mass of:What is the mass of: Helium?Helium?
• 2 protons, 2 neutrons, 2 electrons2 protons, 2 neutrons, 2 electrons OxygenOxygen
• 8 protons, 8 neutrons, 8 electrons8 protons, 8 neutrons, 8 electrons Fissile UraniumFissile Uranium
• 92 protons, 143 neutrons, 92 electrons92 protons, 143 neutrons, 92 electrons Alpha particleAlpha particle
• 2 protons, 2 neutrons2 protons, 2 neutrons
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IsotopesIsotopes Isotopes are similar elements with Isotopes are similar elements with
different amounts of neutronsdifferent amounts of neutrons There are similar propertiesThere are similar properties Some have very different propertiesSome have very different properties Stable and unstable versions of Stable and unstable versions of
atomsatoms
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ExampleExample Sodium – 23Sodium – 23
• 11 protons, 12 neutrons11 protons, 12 neutrons• Very plentiful, in salt that you eat (NaCl)Very plentiful, in salt that you eat (NaCl)
Sodium – 24Sodium – 24• 11 protons, 13 neutrons11 protons, 13 neutrons• Not natural Not natural • Highly radioactive, beta decayHighly radioactive, beta decay• Used to find leaks in industrial pipesUsed to find leaks in industrial pipes
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Put together models of:Put together models of: HydrogenHydrogen
• 1 Proton, 1 Proton, 1 electron1 electron DeuteriumDeuterium
• 1 Proton, 1 Proton, 1 neutron1 neutron, , 1 electron1 electron TritiumTritium
• 1 Proton, 1 Proton, 2 neutrons2 neutrons, , 1 electron1 electron
What are the atomic and mass What are the atomic and mass numbers of each isotope?numbers of each isotope?
What are the net charges?What are the net charges? (Requirement 4a)(Requirement 4a)
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Fission vs. FusionFission vs. Fusion FissionFission
• Makes 20% of our electricityMakes 20% of our electricity• Breaking apart of Heavy NucleiBreaking apart of Heavy Nuclei• Nuclear Reactor tour later Today!Nuclear Reactor tour later Today!• Example:Example:
N + U-235 N + U-235 Ba-139 + Kr-94 + 3N Ba-139 + Kr-94 + 3N FusionFusion
• Powers the SunPowers the Sun• Hard to get on EarthHard to get on Earth• Combination of Light NucleiCombination of Light Nuclei• IEC Fusion Tour later Today!IEC Fusion Tour later Today!• Example:Example:
H-3 + H-2 H-3 + H-2 N + He-4 N + He-4 Tritium + Deuterium Tritium + Deuterium neutron + Helium neutron + Helium
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Where does radiation come from?Where does radiation come from?
The sunThe sun Soil, water and vegetationSoil, water and vegetation Internal sourcesInternal sources
• Potassium-40 (bananas)Potassium-40 (bananas)• Carbon-14 (air)Carbon-14 (air)• Lead-210 (radon)Lead-210 (radon)
Man-made sourcesMan-made sources• Medical sources (x-rays, radiation…)Medical sources (x-rays, radiation…)• Nuclear PowerNuclear Power
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Types of RadiationTypes of Radiation
Ionizing radiation Ionizing radiation • Produces ions in the material it strikesProduces ions in the material it strikes
Non-ionizing radiation Non-ionizing radiation • Can cause damage by physically striking materialCan cause damage by physically striking material
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Ionizing radiationIonizing radiation
Alpha particlesAlpha particles
Beta particlesBeta particles
PhotonsPhotons• Gamma raysGamma rays• X-raysX-rays
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Non-Ionizing RadiationNon-Ionizing Radiation Low energy photonsLow energy photons
• Such as light, infrared light, etcSuch as light, infrared light, etc NeutronsNeutrons
• Neutral particle in nucleusNeutral particle in nucleus• Like a proton but with no chargeLike a proton but with no charge
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Radiation Penetration
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Radioactive MaterialRadioactive Material What is it?What is it?
• Material that releases radiation.Material that releases radiation. How do we get rid of it?How do we get rid of it?
• When an atom decays, it may or may When an atom decays, it may or may not be radioactive still. Eventually, it not be radioactive still. Eventually, it will decay to a stable atomwill decay to a stable atom
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DecayDecay Radioactive material has a Radioactive material has a
probability of decayingprobability of decaying Overtime, this probability averages Overtime, this probability averages
into a half lifeinto a half life Half-life: Amount of time it takes for Half-life: Amount of time it takes for
half of the radioactive substance to half of the radioactive substance to decaydecay
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Biological Effects of RadiationBiological Effects of Radiation DeterministicDeterministic
• responses which increase in severity responses which increase in severity with increased dose (sunburn)with increased dose (sunburn)
StochasticStochastic• effects which have an increased effects which have an increased
probability of occurrence with increased probability of occurrence with increased dose, but whose severity is unchanged dose, but whose severity is unchanged (skin cancer)(skin cancer)
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Radiation ExposureRadiation Exposure To avoid accidental To avoid accidental
exposure, we use the exposure, we use the radiation hazard symbolradiation hazard symbol
ColorsColors• Magenta or BlackMagenta or Black• Yellow BackgroundYellow Background
Color one of your own Color one of your own • Why must people use Why must people use
radioactive materials radioactive materials carefully?carefully?
(Requirement 1a and 1b)
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2006 Atomic Energy Boy 2006 Atomic Energy Boy Scout Merit BadgeScout Merit Badge