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Nuclear Chemistry

Nuclear Chemistry. Chemistry Ms.Piela. Nuclear Chemistry. Radioactivity is the process of particles being emitted from a nucleus as a result of nuclear instability Any atomic numbers greater than 83 are unstable Examples: Uranium, Plutonium

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Nuclear Chemistry

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  1. Nuclear Chemistry Chemistry Ms.Piela

  2. Nuclear Chemistry • Radioactivity is the process of particles being emitted from a nucleus as a result of nuclear instability • Any atomic numbers greater than 83 are unstable • Examples: Uranium, Plutonium • Half-life is the amount of time required for a decaying substance to lose half of its original amount

  3. 3 Main Types of Radioactive Decay

  4. Beta Decay • Type of decay in which an electron is emitted • Symbol: • A neutron decomposes into a proton, an electron, and something known as an antineutrino • Moderate penetrating power (4 mm of body tissue) • Example:

  5. Alpha Decay • Type of decay in which a helium nucleus is emitted • Symbol: • Heaviest form of nuclear decay • Low penetrating power (0.5 mm body tissue) • Example:

  6. Gamma Decay • Type of decay in which large amount of energy are emitted from a nucleus • Symbol:  • Often emitted along with alpha or beta particles • No mass or charge • Very high penetrating power (penetrates body easily, requires metal to block

  7. Nuclear Changes • Nuclear Fission is when the nucleus of an atom splits in order to form a more stable nucleus

  8. Nuclear Changes • Nuclear fusion is the combining of smaller nuclei into larger ones

  9. Writing Nuclear Equations • Method • Balance out atomic number and mass number for each side • The total for mass number and atomic number should be equal • Example Problem #1 • Write a balanced nuclear equation that shows the alpha decay of polonium-218

  10. Nuclear Equation Example • Example Problem #2 • Uranium-238  isotope undergoes beta decay and also emits gamma rays. Express this in an equation

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