Tahun Akademik:
Genap 2022/2023
Kelas-Offr:
B-B
Deskripsi:
Basic Concepts: History and terminology, Nuclear Properties, Units and Dimensions, Quantum Mechanics: 1D System, 3D Systems, Angular Momentum, Parity; Nuclear Properties: The Nuclear Radius, Mass and abundance of nuclides, nuclear binding energy, nuclear angular momentum and parity, nuclear electromagnetic moment, nuclear excited state; The Force between nucleon: Deuteron, Nucleon-nucleon Scattering, proton-proton and neutron-neutron interaction, properties of the nuclear force, the exchange force exchange; Nuclear Models; the shell model, Even-Z, Even-N Nuclei and collective structure; Radioactive Decay: The Radioactive decay law, Quantum theory of radioactive decay, Production and decay of radioactive, Growth daughter activities, Types of decay, Natural of radioactivity, Radioactive dating, Unit and measuring of radiation, Detecting Nuclear Radiations: Interaction of Radiation with matter, Gas-filled caounter, Scintillation and semiconductors detectors, Counting statistics, Energy measurements; Alpha, Beta and Gamma Radiation: Processes are created alpha, systematics and theory of alpha emissions, angular momentum and alpha particle parity, Radiation beta energy, angular momentum and beta parity, neutrinos, impermanence parity, Gamma ray energy, angular momentum and gamma parity, Nuclear resonance fluorescence and Mössbauer Effect; Nuclear Reaction: Type of reaction and conservation laws, Energetics of Nuclear Reaction, Isospin, Reaction Cross Section, Experimental Techniques, Coulomb Scattering, Nuclear Scattering, Scattering and reaction cross sections, Compound-nucleus reactions, Direct reactions, resonance reaction; Nuclear Fusion and Nuclear Fission: Nuclear Fission, Fission and nuclear structure, Controlles fission recation, Fission Reactors, Nuclear Fusion, Sollar fusion, Controlled fusion reactors, Thermonuclear Weapons, Accelerators: Electrostatic accelerators, Cyclotron accelerators, Synchrotrons Colliding-Beam Accelerators; Particle Physics Recognition: Four Basic Interactions, Symmetry and conservation laws, The Quark Models, Colored quarks and gluons, Grand Unified Theories
Capaian Pembelajaran
Genap 2022/2023
Kelas-Offr:
B-B
Deskripsi:
Basic Concepts: History and terminology, Nuclear Properties, Units and Dimensions, Quantum Mechanics: 1D System, 3D Systems, Angular Momentum, Parity; Nuclear Properties: The Nuclear Radius, Mass and abundance of nuclides, nuclear binding energy, nuclear angular momentum and parity, nuclear electromagnetic moment, nuclear excited state; The Force between nucleon: Deuteron, Nucleon-nucleon Scattering, proton-proton and neutron-neutron interaction, properties of the nuclear force, the exchange force exchange; Nuclear Models; the shell model, Even-Z, Even-N Nuclei and collective structure; Radioactive Decay: The Radioactive decay law, Quantum theory of radioactive decay, Production and decay of radioactive, Growth daughter activities, Types of decay, Natural of radioactivity, Radioactive dating, Unit and measuring of radiation, Detecting Nuclear Radiations: Interaction of Radiation with matter, Gas-filled caounter, Scintillation and semiconductors detectors, Counting statistics, Energy measurements; Alpha, Beta and Gamma Radiation: Processes are created alpha, systematics and theory of alpha emissions, angular momentum and alpha particle parity, Radiation beta energy, angular momentum and beta parity, neutrinos, impermanence parity, Gamma ray energy, angular momentum and gamma parity, Nuclear resonance fluorescence and Mössbauer Effect; Nuclear Reaction: Type of reaction and conservation laws, Energetics of Nuclear Reaction, Isospin, Reaction Cross Section, Experimental Techniques, Coulomb Scattering, Nuclear Scattering, Scattering and reaction cross sections, Compound-nucleus reactions, Direct reactions, resonance reaction; Nuclear Fusion and Nuclear Fission: Nuclear Fission, Fission and nuclear structure, Controlles fission recation, Fission Reactors, Nuclear Fusion, Sollar fusion, Controlled fusion reactors, Thermonuclear Weapons, Accelerators: Electrostatic accelerators, Cyclotron accelerators, Synchrotrons Colliding-Beam Accelerators; Particle Physics Recognition: Four Basic Interactions, Symmetry and conservation laws, The Quark Models, Colored quarks and gluons, Grand Unified Theories
Capaian Pembelajaran
- Peserta menunjukkan penguasaan Konsep Dasar Fisika Inti dan Partikel, kemampuan menemukan dan menganalisis solusi bagi suatu system fisis standar, dan kemampuan mengambil keputusan secara tepat untuk menjawab permasalahan dari system fisis tersebut.
- Peserta menunjukkan penguasaan konsep Sifat, Gaya, dan Model Inti, kemampuan menemukan dan menganalisis solusi bagi suatu system fisis standar, dan kemampuan mengambil keputusan secara tepat untuk menjawab permasalahan dari system fisis tersebut.
- Peserta menunjukkan penguasaan konsep Peluruhan Radioaktif, kemampuan menemukan dan menganalisis solusi bagi suatu system fisis standar, dan kemampuan mengambil keputusan secara tepat untuk menjawab permasalahan dari system fisis tersebut.
- Peserta menunjukkan penguasaan konsep Deteksi Radiasi Inti, kemampuan menemukan dan menganalisis solusi bagi suatu system fisis standar, dan kemampuan mengambil keputusan secara tepat untuk menjawab permasalahan dari system fisis tersebut.
- Peserta menunjukkan penguasaan konsep Radiasi Alfa, Beta dan Gamma, kemampuan menemukan dan menganalisis solusi bagi suatu system fisis standar, dan kemampuan mengambil keputusan secara tepat untuk menjawab permasalahan dari system fisis tersebut.
- Peserta menunjukkan penguasaan konsep Reaksi Inti, Fusi dan Fisi, kemampuan menemukan dan menganalisis solusi bagi suatu system fisis standar, dan kemampuan mengambil keputusan secara tepat untuk menjawab permasalahan dari system fisis tersebut.
- Peserta menunjukkan penguasaan konsep Akselerator dan Partikel Elementer, kemampuan menemukan dan menganalisis solusi bagi suatu system fisis standar, dan kemampuan mengambil keputusan secara tepat untuk menjawab permasalahan dari system fisis tersebut.
- Kenneth Krane. 1988. Introduction to Nuclear Physics 2nd ed. John Willey and Sons
- Samuel wong. 2004. Introductory Nuclear Physics 2nd ed. Willey-VCH. Weinheim
- Arthur Beiser. 2003. Modern Physics Concept 6th ed. McGraw Hill. USA
- Kenneth Krane. 2012. Modern Physics. INC. 3rd ed, John Willey & Sons, USA.
- Teacher: chusnana insjaf yogihati
- Teacher: Herlin Pujiarti