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Nuclear Theory. SPS3. Students will distinguish the characteristics and components of radioactivity. Differentiate among alpha and beta particles and gamma radiation. Differentiate between fission and fusion. Explain the process half-life as related to radioactive decay.
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Nuclear Theory SPS3. Students will distinguish the characteristics and components of radioactivity. Differentiate among alpha and beta particles and gamma radiation. Differentiate between fission and fusion. Explain the process half-life as related to radioactive decay. Describe nuclear energy, its practical application as an alternative energy source and its potential problems.
What Causes Nuclear Reactions? • Occurs when the nuclei is unstable. • Too few neutrons to protons • Too many neutrons to protons • Stable nuclei 1 proton: 1 neutron
What Happens to Unstable Nuclei? • Unstable forces the nuclei to emit particles. • The nuclei split into smaller stable atoms (fission). • The nuclei may join smaller atoms (fusion). • The nuclei release a large amount of energy. • Releasing of particles or energy is called radioactivity.
Which Atoms Are Unstable? • Most elements with atomic number of 83 or higher. • Also technetium (element 43). • List some elements that are radioactive.
Nuclear Fission • Fission – when the nucleus splits into other particles and/or rays. • Atomic Bombs – Fat Man and Little Boy • Energy from stars
Practice of Nuclear Fission Instructions: Predict the second nucleus (protons and neutrons) proton 6 protons 14 neutrons neutron 12 protons 23 neutrons
Practice of Nuclear Fission Instructions: Predict the second nucleus (protons and neutrons) proton neutron 8 protons 17 neutrons 12 protons 23 neutrons
Practice of Nuclear Fission Instructions: Predict the second nucleus (protons and neutrons) proton 5 protons 7 neutrons neutron 12 protons 23 neutrons
What Is a Chain Reaction? • Remember that lone neutron? • It goes on to hit lots of other nuclei and they release neutrons and they hit more atoms…. • You get the message?
Nuclear Fusion • Fusion – when two nuclei crash together to create new atoms and release energy. • Energy from stars • Thermonuclear power plants
Fusion: Thermonuclear Reactor • The energy released from radiation heats up water.
What Are the Three Nuclear Particles? • Particles that are emitted from the nucleus or knocked into the nucleus include: • Alpha - 42He • Mass number = 4; atomic number = 2 • Beta - 0-1e • Gamma - 00γ • Neutron – 10n • Positron – 0+1e
Information on Top 3 Nuclear Particles • Alpha Particles • Beta Particles • Gamma Radiation • Have a +2 charge. • Are massive and slower. • Can be stopped by a sheet of paper. • Have a -1 charge • No mass and faster • Can be stopped by 3 mm Al or 10 mm wood. • No charge, no mass and fastest • Electromagnetic radiation • Can be stopped using thick block of lead.
Balancing Nuclear Reactions • The nuclear reaction is two simple math expressions. • Total mass number (reactants) = total mass number (products) • Total atomic number (reactants) = total atomic number (products) • 11p + 0-1e • Mass number of reactants: 1 + 0 = 1 • Atomic number of reactants: 1 + (-1) = 0 • New particle is 10 • Look on your particle list, who is this? • 10n • Neutron particle
Practice: Nuclear Rxn • 0-1e + 8137Rb ____ + X-ray • Identify the element • Fission or Fusion? • 8136Kr; krypton; fusion
Practice: Nuclear Rxn • 23090Th ____ + 42He • Identify the element • Fission or Fusion? • 22688Ra; radium; fission
Practice: Nuclear Rxn • 158O + 0+1e ________ • Identify the element • Fission or Fusion? • 159F; fluorine; Fusion
Practice: Nuclear Rxn • 23190Th 23191Pa + ________ • Identify the radioactive particle • 0-1e (beta particle)
Worksheet – Balancing Nuclear • Work in group to balance eight nuclear equations of choice. • You must get all eight correct. • If you miss one, you must select a new problem.
What does Nuclear Radiation look like? Uranium undergoes • Alpha decay to make Thorium • Beta Decay to make Protactinium • Beta Decay to make Uranium • Alpha Decay to make Thorium • Alpha Decay to make Radium • Alpha Decay to make Radon • Alpha Decay to make Polonium • Alpha Decay to make Lead • Beta Decay to make Bismuth • Beta Decay to make Polonium • Alpha Decay to make Lead • Beta Decay to make Bismuth • Beta Decay to make Polonium • Alpha Decay to make Lead
What Is Half Life? • Half-life: the time it takes when half the amount of substance is consumed (decays). • Exponential decay • Twizzler lab (if time allows) (p. 116 IN)
Activity: Graphing Half Lives • Materials • 1 Twizzler (or pretzel stick) • 1 pencil • 1 paper towel • 1 piece of graph paper • 1 paper towel • Lab sheet – Lab – Half Life and Decay What did I learn?
Calculating Half-Life • To calculate, take ½ of the substance until you get to the correct value. • Count how many times you took the half life. • Multiply the half life by the number of times it took to get to the answer.
Calculating Half-Life • How many half lives did it take to get to 1.25 g if you started with 10.0 g? • 1st: 10/2 = 5 • 2nd: 5/2 = 2.5 • 3rd: 2.5/2 = 1.25 (1 g) = 3 half lives • How long did that take? • 5730 years x 3 half lives = 17190 years
Practicing Half-Lives • Redrum has a half life of 2 days. How many half lives has redrum undergone if there was 100 g of redrum at the beginning and now there is just 3.125 g left? • 1st: 100/2 = 50 • 2nd: 50/2 = 25 • 3rd: 25/2 = 12.5 • 4th: 12.5/2 = 6.25 • 5th: 6.25/2 = 3.125 g (3 g) = 5 half lives • How long did that take? • 5 half lives x 2 days = 10 days
Practice – Half Life • How many days are required for 32P to undergo 6 half-lives if the half life 14.3 days. • 6 half lives x 14.3 days = 85.8 days (86 days)
Practicing Half-Lives • Redrum has a half life of 2 days. How many half lives has Redrum undergone if there was 500 g of Redrum at the beginning and now there is just 15.625 g left? • How long did that take? • 1st: 500/2 = 250 • 2nd: 250/2 = 125 • 3rd: 125/2 = 62.5 • 4th: 62.5/2 = 31.25 • 5th: 31.25/2 = 15.625 (16 g) = 5 half lives • 5 half lives x 2 days = 10 days to decay
Practice – Half Life (Level 2) • Predict the mass of 75.00 g of 198Au after 16.14 days if the half life is 2.69 days. • How many half lives? • 16.14/2.69 = 6 half lives • Divide the mass by two that many times. • 1st: 75/2 = 37.5 • 2nd: 37.5/2 = 18.75 • 3rd: 18.75/2 = 9.375 • 4th: 9.375/2 = 4.6875 • 5th: 4.6875/2 = 2.3475 • 6th: 2.3475/2 = 1.171875 (1 g)
Calculating Half-Lives (truth) Formula: • Number of half lives = Elapsed time Half-life Formula: • Amount Remaining = Initial amount(1/2)n • n= # of half lives that have passed. • Initial amount is the quantity you started with.
Practice – Half Life (Level 3)Use Formula • Predict the mass of a 125.00 g sample 42K after 62.0 hours if the half life is 12.4 hours. • Number of half lives = Elapsed time Half-life • 62.0/12.4 = 5 half lives • Amount Remaining = Initial amount(1/2)n • x = 125(1/2)5 = 125 x 0.03125 = 3.91 g (4 g)
Homework • Balancing Nuclear Reactions Worksheet and Half Life (write the question below on worksheet) • The half-life of barium-131 is 12.0 days. How many milligrams of barium-131 remain after six half lives when the initial amount was 20 mg?
Measuring Radiation • A Geiger counter is used to measure radiation. • All radioactive substances emit radiation. • The detector absorbs radiation and changes it to voltage (electrical) • The detector pin moves to show how much radiation.
Benefits of Nuclear Reactions • Gives powers to homes • Produces WAY more power than fossil fuels • Does not cause air pollution (clean energy) • Used to kill bacteria in meat
Harmful Effects of Nuclear Reactions • Increases the temperature of water in ponds, lakes, streams • Radiation leaks cause health problems among animals (including people) and plants.
E = mc2 Nuclear reactions particles are converted into ENERGY according to Einstein. Mass is changed into energy. And he is correct.