Recent Changes

Thursday, December 14

  1. page 2018-Physics-II edited ... June 5: quantum tunnelling {Q17-5-quantum_tunnelling.pdf} June 7: magic numbers in periodi…
    ...
    June 5: quantum tunnelling {Q17-5-quantum_tunnelling.pdf}
    June 7: magic numbers in periodic table {Q17-6-magic_numbers_in_periodic_table.pdf}
    L26: Q18: How is the secret of life encoded? {Q18-1-how_is_the_secret_of_life_encoded.pdf}
    L27: quantum theory of solids {Q18-2-quantum_theory_of_solids.pdf}
    L28: Q19: How can we date fossils? {Q19-1-how_can_we_date_fossils.pdf}
    L29: magnetic resonance imaging {Q19-2-magnetic_resonance_imaging.pdf}

    Week 17
    June 12: How is the secret of life encoded? {Q18-1-how_is_the_secret_of_life_encoded.pdf}
    June 14: quantum theory of solids {Q18-2-quantum_theory_of_solids.pdf}
    (Skipped Materials)
    Q19-1: How can we date fossils? {Q19-1-how_can_we_date_fossils.pdf}
    Q19-2: magnetic resonance imaging {Q19-2-magnetic_resonance_imaging.pdf}
    Q20-1:
    What are
    ...
    universe? {Q20-1-what_are_the_building_blocks_of_our_universe.pdf}
    June 14:

    Q20-2:
    after the
    Week 18 (Final Week)
    ...
    19: Final (Q17, Q18)
    June 21: Final discussions
    (view changes)
    5:09 pm
  2. page 2018-Physics-II edited ... May 8: resolution limit of light {Q16-2-resolution_limit_of_light.pdf} May 10: photons {Q1…
    ...
    May 8: resolution limit of light {Q16-2-resolution_limit_of_light.pdf}
    May 10: photons {Q16-3-photons.pdf}
    L20: Q17: Why are atoms stable? {Q17-1-why_are_atoms_stable.pdf}
    Week 13
    May 15: Midterm 2 (Q14, Q15, Q16)
    May 17: Midterm 2 discussions
    L21: uncertainty principles {Q17-2-uncertainty_principles.pdf}
    L22: Schrodinger equation {Q17-3-Schrodinger_equation.pdf}

    Week 14
    May 22:
    May
    Why are atoms stable? {Q17-1-why_are_atoms_stable.pdf}
    May
    24:
    L23: energy quantization {Q17-4-energy_quantization.pdf}
    L24: quantum tunnelling {Q17-5-quantum_tunnelling.pdf}
    uncertainty principles {Q17-2-uncertainty_principles.pdf}
    Week 15
    May 29:
    May
    Schrodinger equation {Q17-3-Schrodinger_equation.pdf}
    May
    31:
    L25: magic numbers in periodic table {Q17-6-magic_numbers_in_periodic_table.pdf}
    L26: Q18: How is the secret of life encoded? {Q18-1-how_is_the_secret_of_life_encoded.pdf}
    energy quantization {Q17-4-energy_quantization.pdf}
    Week 16
    June 5:
    June
    quantum tunnelling {Q17-5-quantum_tunnelling.pdf}
    June
    7: magic numbers in periodic table {Q17-6-magic_numbers_in_periodic_table.pdf}
    L26: Q18: How is the secret of life encoded? {Q18-1-how_is_the_secret_of_life_encoded.pdf}

    L27: quantum theory of solids {Q18-2-quantum_theory_of_solids.pdf}
    L28: Q19: How can we date fossils? {Q19-1-how_can_we_date_fossils.pdf}
    Week 17
    June 12:
    June 14:

    L29: magnetic resonance imaging {Q19-2-magnetic_resonance_imaging.pdf}
    L30: Q20:Week 17
    June 12:
    What are
    ...
    universe? {Q20-1-what_are_the_building_blocks_of_our_universe.pdf}
    June 14: after the big bang {Q20-2-after_the_big_bang.pdf}

    Week 18 (Final Week)
    June 19: Final
    June 21:
    L31: after the big bang {Q20-2-after_the_big_bang.pdf}
    Final (Q17-20) 2014-06-GP_solution_for_final.pdf {2014-06-GP_solution_for_final.pdf}
    Final discussions
    (view changes)
    4:58 pm
  3. page 2018-Physics-II edited ... Mar 13: electrostatic potential energy {Q12-2-electrostatic_potential_energy.pdf} Mar 15: …
    ...
    Mar 13: electrostatic potential energy {Q12-2-electrostatic_potential_energy.pdf}
    Mar 15: Can magnetic forces do work? {Q13-1-can_magnetic_forces_do_work.pdf}
    L7: magnetic dipoles {Q13-2-magnetic_dipole.pdf}
    L8: Hall effect {Q13-3-Hall_effect.pdf}

    Week 5
    Mar 20: magnetic dipoles {Q13-2-magnetic_dipole.pdf}
    ...
    Mar 27: Midterm 1 (Q11, Q12, Q13)
    Mar 29: Midterm 1 discussions
    L9: Q14: How does the geomagnetic field arise? {Q14-1-how_does_the_geomagnetic_field_arise.pdf}
    L10: Biot-Savart law {Q14-2-Biot_Savart_law.pdf}

    Week 7
    Apr 3: How does the geomagnetic field arise? {Q14-1-how_does_the_geomagnetic_field_arise.pdf}
    Apr 5: 清明節
    L11: Ampere law {Q14-3-Ampere_law.pdf}
    L12: Q15: Why can light propagate in vacuum? {Q15-1-why_can_light_propagate_in_vacuum.pdf}

    Week 8
    Apr 10:
    Apr
    Biot-Savart law {Q14-2-Biot_Savart_law.pdf}
    Apr
    12:
    L13: Faraday's
    Ampere law {Q15-2-Faraday_law.pdf}
    L14: energy in magnetic field {Q15-3-energy_in_magnetic_field.pdf}
    {Q14-3-Ampere_law.pdf}
    Week 9
    Apr 17:
    Apr
    Why can light propagate in vacuum? {Q15-1-why_can_light_propagate_in_vacuum.pdf}
    Apr
    19:
    L15: Maxwell equations {Q15-4-Maxwell_equations.pdf}
    L16: Maxwell equations 2
    Faraday's law {Q15-2-Faraday_law.pdf}
    Week 10
    Apr 24:
    Apr
    energy in magnetic field {Q15-3-energy_in_magnetic_field.pdf}
    Apr
    26:
    L17: Q16: What is the nature of light? {Q16-1-what_is_the_nature_of_light.pdf}
    L28: resolution limit of light {Q16-2-resolution_limit_of_light.pdf}
    Maxwell equations {Q15-4-Maxwell_equations.pdf}
    Week 11
    May 1: Maxwell equations 2
    May 3:
    L19: photons {Q16-3-photons.pdf}
    Midterm 2 (Q14-Q16)
    What is the nature of light? {Q16-1-what_is_the_nature_of_light.pdf}
    Week 12
    May 8:
    May
    resolution limit of light {Q16-2-resolution_limit_of_light.pdf}
    May
    10:
    Midterm 2 discussions
    photons {Q16-3-photons.pdf}
    L20: Q17: Why are atoms stable? {Q17-1-why_are_atoms_stable.pdf}
    Week 13
    May 15: Midterm 2 (Q14, Q15, Q16)
    May 17: Midterm 2 discussions
    L21: uncertainty principles {Q17-2-uncertainty_principles.pdf}
    L22: Schrodinger equation {Q17-3-Schrodinger_equation.pdf}
    (view changes)
    4:51 pm
  4. page 2018-Physics-II edited ... Week 1 Feb 22: Course Introduction L2: electric field {Q11-2-electric_field.pdf} Week 2…
    ...
    Week 1
    Feb 22: Course Introduction
    L2: electric field {Q11-2-electric_field.pdf}
    Week 2
    Feb 27: Why are most materials charge neutral? {Q11-1-why_are_most_materials_charge_neutral.pdf}
    ...
    Mar 6: Gauss law {Q11-3-Gauss_law.pdf}
    Mar 8: What causes lightning? {Q12-1-what_causes_lightning.pdf}
    L5: electrostatic potential energy {Q12-2-electrostatic_potential_energy.pdf}
    L6: Q13: Can magnetic forces do work? {Q13-1-can_magnetic_forces_do_work.pdf}

    Week 4
    Mar 13:
    Mar
    electrostatic potential energy {Q12-2-electrostatic_potential_energy.pdf}
    Mar
    15: Can magnetic forces do work? {Q13-1-can_magnetic_forces_do_work.pdf}
    L7: magnetic dipoles {Q13-2-magnetic_dipole.pdf}
    L8: Hall effect {Q13-3-Hall_effect.pdf}
    Week 5
    Mar 20:
    Mar
    magnetic dipoles {Q13-2-magnetic_dipole.pdf}
    Mar
    22:
    Midterm 1 (Q11-Q13)
    Midterm 1 discussions
    Hall effect {Q13-3-Hall_effect.pdf}
    Week 6
    Mar 27: Midterm 1 (Q11, Q12, Q13)
    Mar 29: Midterm 1 discussions
    L9: Q14: How does the geomagnetic field arise? {Q14-1-how_does_the_geomagnetic_field_arise.pdf}
    L10: Biot-Savart law {Q14-2-Biot_Savart_law.pdf}
    (view changes)
    4:45 pm
  5. page 2018-Physics-II edited ... Class Lectures Week 1 L1: Q11: Why are most materials charge neutral? {Q11-1-why_are_most_…
    ...
    Class Lectures
    Week 1
    L1: Q11: Why are most materials charge neutral? {Q11-1-why_are_most_materials_charge_neutral.pdf} Feb 22: Course Introduction
    L2: electric field {Q11-2-electric_field.pdf}
    Week 2
    L3: Gauss law {Q11-3-Gauss_law.pdf}
    L4: Q12: What causes lightning? {Q12-1-what_causes_lightning.pdf}
    Feb 27: Why are most materials charge neutral? {Q11-1-why_are_most_materials_charge_neutral.pdf}
    Mar 1: electric field {Q11-2-electric_field.pdf}

    Week 3
    Mar 6: Gauss law {Q11-3-Gauss_law.pdf}
    Mar 8: What causes lightning? {Q12-1-what_causes_lightning.pdf}

    L5: electrostatic potential energy {Q12-2-electrostatic_potential_energy.pdf}
    L6: Q13: Can magnetic forces do work? {Q13-1-can_magnetic_forces_do_work.pdf}
    Week 4
    Mar 13:
    Mar 15:

    L7: magnetic dipoles {Q13-2-magnetic_dipole.pdf}
    L8: Hall effect {Q13-3-Hall_effect.pdf}
    Week 5
    Mar 20:
    Mar 22:

    Midterm 1 (Q11-Q13)
    Midterm 1 discussions
    Week 6
    Mar 27:
    Mar 29:

    L9: Q14: How does the geomagnetic field arise? {Q14-1-how_does_the_geomagnetic_field_arise.pdf}
    L10: Biot-Savart law {Q14-2-Biot_Savart_law.pdf}
    Week 7
    Apr 3:
    Apr 5: 清明節

    L11: Ampere law {Q14-3-Ampere_law.pdf}
    L12: Q15: Why can light propagate in vacuum? {Q15-1-why_can_light_propagate_in_vacuum.pdf}
    Week 8
    Apr 10:
    Apr 12:

    L13: Faraday's law {Q15-2-Faraday_law.pdf}
    L14: energy in magnetic field {Q15-3-energy_in_magnetic_field.pdf}
    Week 9
    Apr 17:
    Apr 19:

    L15: Maxwell equations {Q15-4-Maxwell_equations.pdf}
    L16: Maxwell equations 2
    Week 10
    Apr 24:
    Apr 26:

    L17: Q16: What is the nature of light? {Q16-1-what_is_the_nature_of_light.pdf}
    L28: resolution limit of light {Q16-2-resolution_limit_of_light.pdf}
    Week 11
    May 1:
    May 3:

    L19: photons {Q16-3-photons.pdf}
    Midterm 2 (Q14-Q16)
    Week 12
    May 8:
    May 10:

    Midterm 2 discussions
    L20: Q17: Why are atoms stable? {Q17-1-why_are_atoms_stable.pdf}
    Week 13
    May 15:
    May 17:

    L21: uncertainty principles {Q17-2-uncertainty_principles.pdf}
    L22: Schrodinger equation {Q17-3-Schrodinger_equation.pdf}
    Week 14
    May 22:
    May 24:

    L23: energy quantization {Q17-4-energy_quantization.pdf}
    L24: quantum tunnelling {Q17-5-quantum_tunnelling.pdf}
    Week 15
    May 29:
    May 31:

    L25: magic numbers in periodic table {Q17-6-magic_numbers_in_periodic_table.pdf}
    L26: Q18: How is the secret of life encoded? {Q18-1-how_is_the_secret_of_life_encoded.pdf}
    Week 16
    June 5:
    June 7:

    L27: quantum theory of solids {Q18-2-quantum_theory_of_solids.pdf}
    L28: Q19: How can we date fossils? {Q19-1-how_can_we_date_fossils.pdf}
    Week 17
    June 12:
    June 14:

    L29: magnetic resonance imaging {Q19-2-magnetic_resonance_imaging.pdf}
    L30: Q20: What are the building blocks of our universe? {Q20-1-what_are_the_building_blocks_of_our_universe.pdf}
    Week 18 (Final Week)
    June 19:
    June 21:

    L31: after the big bang {Q20-2-after_the_big_bang.pdf}
    Final (Q17-20) 2014-06-GP_solution_for_final.pdf {2014-06-GP_solution_for_final.pdf}
    (view changes)
    4:42 pm
  6. page 2018-Physics-II edited ... Physics A I (Fall, 2017) II (Spring, 2018) Lecturer: Prof. Hsiu-Hau LIN Schedule: 10:1…

    ...
    Physics A I (Fall, 2017)II (Spring, 2018)
    Lecturer: Prof. Hsiu-Hau LIN
    Schedule: 10:10 - 12:00 on Tuesdays and Thursdays
    (view changes)
    4:24 pm
  7. page 2018-Physics-II edited General Physics A I (Fall, 2017) Lecturer: Prof. Hsiu-Hau LIN Schedule: 10:10 - 12:00 on Tuesd…

    General Physics A I (Fall, 2017)
    Lecturer: Prof. Hsiu-Hau LIN
    Schedule: 10:10 - 12:00 on Tuesdays and Thursdays
    Textbook: Physics for Scientists and Engineers (9th edition, Serway and Jewett)
    You can find the lecture videos in NTHU OpenCourseWare

    Ten-Question Syllabus (Semester II)
    Q11: Why are most materials charge neutral?
    (view changes)
    4:23 pm

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