1. Nuclear Chemistry Types of Radiation Nuclear Decay Half-LifeApplications Big Bang Movie Big Bang Movie Types of Radiation Nuclear Decay Half-LifeApplications Big Bang Movie Big Bang Movie I IV III II

2. A. Types of Radiation  Alpha particle (  )  helium nucleus  Alpha Particle movie Alpha Particle movie paper 2+  Beta particle (  -)  electron 1- lead  Positron (  +)  positron 1+  Gamma (  )  high-energy photon  Radiation movie Radiation movie 0 concrete

3. B. Nuclear Decay  Alpha Emission parent nuclide daughter nuclide alpha particle Numbers must balance!!

4. B. Nuclear Decay  Beta Emission electron  Positron Emission positron

5. B. Nuclear Decay  Electron Capture electron  Gamma Emission  Usually follows other types of decay.  Transmutation  One element becomes another.

6. Band of Stability  Atoms give off radiation in an attempt to increase stability.  Stability is determined by the ratio of protons to neutrons.  The neutron/proton ration needs to be between 1.0 and 1.5

7. B. Nuclear Decay  Why nuclides decay…  need stable ratio of neutrons to protons DECAY SERIES TRANSPARENCY

8. Neutron to Proton Ratio

9. Uranium-238 Decay Series

10. C. Half-life  Half-life (t ½ )  Time required for half the atoms of a radioactive nuclide to decay.  Shorter half-life = less stable.

11. C. Half-life m f :final mass m i :initial mass n:# of half-lives n = t/T 1/2 t: total time elapsed T 1/2 : length of half life

12. C. Half-life  Fluorine-21 has a half-life of 5.0 seconds. If you start with 25 g of fluorine-21, how many grams would remain after 60.0 s? GIVEN: t ½ = 5.0 s m i = 25 g m f = ? total time = 60.0 s n = 60.0s ÷ 5.0s =12 WORK : m f = m i (½) n m f = (25 g)(0.5) 12 m f = 0.0061 g

13. Nuclear Chemistry Fission & Fusion Fission & Fusion Domino Movie Domino Movie Fission & Fusion Fission & Fusion Domino Movie Domino Movie I IV III II

14. A. F ission  splitting a nucleus into two or more smaller nuclei  1 g of 235 U = 3 tons of coal

15. A. F ission  chain reaction - self-propagating reaction

16. Critical Mass  critical mass - mass required to sustain a chain reaction Domino Unveiling MovieDomino Unveiling Movie

17. B. Fusion  combining of two nuclei to form one nucleus of larger mass  thermonuclear reaction – requires temp of 40,000,000 K to sustain  1 g of fusion fuel = 20 tons of coal  occurs naturally in stars

18. C. Fission vs. Fusion  235 U is limited  danger of meltdown  toxic waste  thermal pollution  fuel is abundant  no danger of meltdown  no toxic waste  not yet sustainable FISSIONFISSION FUSIONFUSION

19. Nuclear Chemistry ApplicationsApplications I IV III II

20. A. Nuclear Power  Fission Reactors- control rods are critical Cooling Tower

21. A. Nuclear Power  Fission Reactors moviemovie

22. A. Nuclear Power  Fusion Reactors (not yet sustainable)

23. A. Nuclear Power  Fusion Reactors (not yet sustainable) Tokamak Fusion Test Reactor Princeton University National Spherical Torus Experiment

24. A. Nuclear Power  Nuclear Power is relatively safe today; but when accidents occur, the damage can be devastating as Chernobyl demonstrated.  Boron control rods are used to regulated the chain reaction by absorbing neutrons.

25. B. Synthetic Elements  Transuranium Elements  elements with atomic #s above 92  synthetically produced in nuclear reactors and accelerators  most decay very rapidly

26. B. Synthetic Elements  The main Tevatron ring has a diameter of more than 0.8 km and a circumference of about 6.4 km. It uses conventional and superconducting magnets to accelerate particles to high speeds and energies.

27. C. Radioactive Dating  half-life measurements of radioactive elements are used to determine the age of an object moviemovie  decay rate indicates amount of radioactive material  EX: 14 C - up to 60,000 years 238 U and 40 K - over 300,000 years

28. D. Nuclear Medicine  Radiation Treatment  larger doses are used to kill cancerous cells in targeted organs  internal or external radiation source Radiation treatment using  -rays from cobalt-60.

29. D. Nuclear Medicine  Radioisotope Tracers  absorbed by specific organs and used to diagnose diseases movie movie  Show DVD Isotope Tracers

30. E. Nuclear Weapons  Atomic Bomb  chemical explosion is used to form a critical mass of 235 U or 239 Pu  fission develops into an uncontrolled chain reaction  Hydrogen Bomb  chemical explosion  fission  fusion  fusion increases the fission rate  more powerful than the atomic bomb

31. F. Others  Food Irradiation   radiation is used  to kill bacteria  Radioactive Tracers  explore chemical pathways  trace water flow  study plant growth, photosynthesis  Consumer Products  ionizing smoke detectors - 241 Am