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  • Course Information
    • Course Title Code Semester Laboratory+Practice (Hour) Pool Type ECTS
    Nuclear Physics I FİZ303 FALL 4+0 Faculty C 6
    Learning Outcomes
    1-Explains the nuclear binding energy.
    2-Makes conversions between the laboratory and center of mass system.
    3-Explains the properties of atomic nuclei through modelling.
    4-Explains the properties of radioactive nuclei.
    Prerequisites -
    Language of Instruction Turkish
    Responsible Assoc. Prof. Dr. İlyas İNCİ
    Instructors -
    Assistants -
    Resources R1. Krane, K. S. (1988). Introductory Nuclear Physics, John Wiley & Sons, USA.. R2. Das, A., & Ferbel, T. (2003). Introduction to Nuclear and Particle Physics (2nd Edition), World Scientific, London.
    Supplementary Book -
    Goals To inform about the basic principles and concepts of nuclear physics.
    Content Basic constituents of atomic nuclei and their properties, Nuclear masses, Natural abundance, Nuclear angular momentum and parity, Nuclear binding energy, Nuclear magnetic moments, Laboratory and Center of Mass coordinate systems, Elements of quantum mechanics: Problem in one dimension, Elements of quantum mechanics: Problem in three dimension, Properties of nuclear forces, The deuteron, The deuteron, Nuclear models: Liquid-Drop model, Fermi gas model, Nuclear models: Shell model, Nuclear models: Collective model, Radioactivity, Types of radioactive decay, Radioactive series, Radiation units, Radioactive dating, Interaction of radiation with matter.
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