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Nuclear Chemistry Fusion and Fission

Nuclear Chemistry Fusion and Fission. Nuclear Fission. The splitting of a nucleus into smaller fragments is called nuclear fission. Heavy atoms (mass number>60) tend to break into smaller atoms, thereby increasing their stability . Nuclear fission releases a large amount of energy .

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Nuclear Chemistry Fusion and Fission

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  1. Nuclear ChemistryFusion and Fission

  2. Nuclear Fission • The splitting of a nucleus into smaller fragments is called nuclear fission. • Heavy atoms (mass number>60) tend to break into smaller atoms, thereby increasing their stability. • Nuclear fission releases a large amount of energy.

  3. Nuclear Fission

  4. 235 1 U n 92 0 The Fission Process A neutron travels at high speed towards a uranium-235 nucleus.

  5. 235 1 U n 92 0 The Fission Process A neutron travels at high speed towards a uranium-235 nucleus.

  6. 235 1 U n 92 0 The Fission Process A neutron travels at high speed towards a uranium-235 nucleus.

  7. 235 1 U n 92 0 The Fission Process The neutron strikes the nucleus which then captures the neutron.

  8. 236 U 92 The Fission Process The nucleus changes from being uranium-235 to uranium-236 as it has captured a neutron.

  9. The Fission Process The uranium-236 nucleus formed is very unstable. It transforms into an elongated shape for a short time.

  10. The Fission Process The uranium-236 nucleus formed is very unstable. It transforms into an elongated shape for a short time.

  11. The Fission Process The uranium-236 nucleus formed is very unstable. It transforms into an elongated shape for a short time.

  12. 1 1 1 n n n 0 0 0 141 92 Ba Kr 56 36 The Fission Process It then splits into 2 fission fragments and releases neutrons.

  13. 1 1 1 n n n 0 0 0 141 92 Ba Kr 56 36 The Fission Process It then splits into 2 fission fragments and releases neutrons.

  14. 1 1 1 n n n 0 0 0 141 92 Ba Kr 56 36 The Fission Process It then splits into 2 fission fragments and releases neutrons.

  15. Energy 1 1 1 n n n 0 0 0 92 141 Kr Ba 36 56 The Fission Process It then splits into 2 fission fragments and releases neutrons.

  16. 235 235 141 96 92 138 U U Cs Kr Ba Rb 2 3 + + + + + + 92 92 55 36 37 56 1 1 1 1 n n n n 0 0 0 0 Nuclear Fission Examples

  17. Review: Balancing Nuclear Equations • Mass numbers and Atomic numbers must add up on both sides of the reaction arrow. • 100Fm  54Xe + ____ + 4 0n 256 140 112 46Pd 1 For Atomic numbers 100 = 54 + X X = 46 For Mass Numbers: 256 = 140 + X + 4 X = 112

  18. White Boards Supply the missing atomic symbol to complete the equation for the following nuclear fission reaction. 1n+ 235U 137Te + ?X+ 2 1n +energy 0 92 52 ?0

  19. Solution 1n + 235U 137Te + 97Zr+ 2 1n +energy 0 92 52 400

  20. Fission Chain Reactions • One fission reaction can lead to more fission reactions in a process called a chain reaction. • Example - The fission of Uranium-235

  21. Chain Reaction of Uranium-235

  22. A chain reaction can only occur if the starting material has enough mass to sustain a chain reaction. This amount is called the critical mass. • Nuclear Fission is what occurs in Nuclear Reactors and Atomic Bombs. • The Nuclear reactor is a controlled fission reaction, the bomb is not. • The chain reaction releases a large amount heat and energy that produces an atomic explosion.

  23. Energy Nuclear Fusion • The combining of atomic nuclei to form a larger atom is called fusion • Nuclear fusion occurs in the sun when two nuclei with low mass numbers combine to produce a single nucleus with a higher mass number. • Fusion releases large amounts of energy. • Example: 1 4 4 H + 2 0 e  He + energy 1 -1 2

  24. Nuclear Fusion

  25. 2 3 H H 1 1 The Fusion Process

  26. 2 3 H H 1 1 The Fusion Process

  27. 2 3 H H 1 1 The Fusion Process

  28. 2 3 H H 1 1 The Fusion Process

  29. The Fusion Process

  30. The Fusion Process

  31. The Fusion Process

  32. The Fusion Process

  33. 4 He 2 1 n 0 The Fusion Process ENERGY

  34. 4 He 2 1 n 0 The Fusion Process ENERGY

  35. 4 He 2 1 n 0 The Fusion Process ENERGY

  36. 4 He 2 1 n 0 The Fusion Process ENERGY

  37. Nuclear fusion is what powers our sun - and all stars.

  38. And also - Hydrogen Bombs

  39. Fusion • Fusion reactions also release very large amount of energy but require extremely high temperatures to start. • Nuclear fusion also occurs in new stars and is how all of our elements were made. 4 He + He  Be + energy 4 8 2 4 2 4 12 He + Be  C + energy 8 2 4 6

  40. Other Fusion Reactions • Hydrogen Bomb or possible Fusion nuclear reactor reaction • 3H + 2H  4He + 1n • New elements discovered: • 20Ca + 95Am  115Uup • 115Uup  113Uut + 2He 2 0 1 1 4

  41. Energy Remember:Nuclear fission and fusion both occur with an incredible release of energy.

  42. Learning Check Indicate if each of the following describes 1) nuclear fission or 2) nuclear fusion. ___ A. a nucleus splits. ___ B. large amounts of energy are released ___ C. small nuclei form larger nuclei. ___ D. hydrogen nuclei react. ___ E. several neutrons are released.

  43. Solution Indicate if each of the following is 1) nuclear fission or 2) nuclear fusion. 1 A. a nucleus splits. 1, 2 B. large amounts of energy are released. 2 C. small nuclei form larger nuclei. 2 D. hydrogen nuclei react. 1 E. several neutrons are released.

  44. Chemical Reactions Involve changes in electrons Acids & Bases, combustion, displacement The same atoms appear on both sides of the reaction. Smallamount of energy generated Burning fossil fuels Nuclear Reactions Involve changes in the nucleus Nuclear fusion, nuclear fission New atoms appear as products of the reaction. Large amount of energy generated 1 million times more than chemical reactions Nuclear fusion on the sun Nuclear fission for reactors

  45. Decay vs. Nuclear Reactions Alpha, beta, and gamma decay occur as ONE atom tries to increase it’s stability by getting rid of a few neutrons, or protons & neutrons. The product is an alpha, beta, or gamma particle and ONE new atom. There is only ONE thing on the left hand side. • Nuclear reactions involve more than just getting rid of a few protons or neutrons. The new atoms produced are VERY different elements than the reactant. • Nuclear reactions must be started, so there are 2 things on the left hand side. • Nuclear fission: makes 2 or more much smaller atoms • Nuclear fusion: makes 1 much larger atom

  46. Nuclear Fission What are the differences between the 2 above nuclear equations?? Alpha Decay

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