所属が変わりました (2025年4月) / Affiliation has changed (April, 2025)
Introductory Seminar (Faculty of Economics and Business Administration, for 1st-Year students)
data collection and presentation (spring term: 90 min × 16)
Basic Seminar (Department of Economics, for 2nd-year students)
logical thinking skills and resume writing (spring term: 90 min × 16)
Specialized Seminar I (Department of Economics, for 3rd-year students)
preparation for graduation thesis (spring term: 90 min × 16)
Introduction to Statistics (Faculty of Economics and Business Administration, for 1st-year students)
fundamentals of descriptive and inferential statistics (winter term: 90 min × 16 × 2)
Specialized Seminar II (Department of Economics, for 3rd-year students)
preparation for graduation thesis (winter term: 90 min × 16)
Quantum Mechanics I (Department of Electrical and Electronic Engineering, for 2nd-year students)
history and principle of quantum mechanics (spring term: 90 min × 16)
Quantum Mechanics II (Department of Electrical and Electronic Engineering, for 3rd-year students)
application of quantum mechanics (spring term: 90 min × 16)
Applied Physics (Department of Applied Chemistry, for 2nd-year students)
quantum mechanics and condensed matter physics (spring term: 90 min × 8)
Applied Physics I (Department of Civil and Environmental Engineering, for 2nd-year students)
rigid body and analytical mechanics (spring term: 90 min × 16)
Special Lecture of Mechanical Engineering (Intercollegiate human resource development) (Faculty of Engineering, for 4th-year students)
mathematical model (spring term: 90 min × 2)
Principles of the Theory of Solids (graduate school, for MC students)
mechanics and dynamics of electrons in solid state (spring term: 90 min × 5)
Applied Physics II (Department of Mechanical Engineering, for 2nd-year students)
wave, light, and thermodynamics (winter term: 90 min × 16)
Computational Simulation for Condensed Matter Physics (graduate school, for MC students)
pseudo-random number and Brownian dynamics simulation (winter term: 90 min × 7)
Advanced Material Engineering (graduate school, for DC students)
mathematical model and its application (winter term: 90 min × 1)
Quantum Mechanics I (Department of Electrical and Electronic Engineering, for 2nd-year students)
history and principle of quantum mechanics (spring term: 90 min × 16)
Quantum Mechanics II (Department of Electrical and Electronic Engineering, for 3rd-year students)
application of quantum mechanics (spring term: 90 min × 16)
Applied Physics (Department of Applied Chemistry, for 2nd-year students)
quantum mechanics and condensed matter physics (spring term: 90 min × 8)
Applied Physics I (Department of Civil and Environmental Engineering, for 2nd-year students)
rigid body and analytical mechanics (spring term: 90 min × 16)
Advanced Topics of Electrical, Electronic and Information Engineering (graduate school, for MC students)
mathematical modeling (spring term: 90 min × 1)
Principles of the Theory of Solids (graduate school, for MC students)
mechanics and dynamics of electrons in solid state (spring term: 90 min × 5)
Applied Physics II (Department of Mechanical Engineering, for 2nd-year students)
wave, light, and thermodynamics (winter term: 90 min × 16)
Computational Simulation for Condensed Matter Physics (graduate school, for MC students)
pseudo-random number and Brownian dynamics simulation (winter term: 90 min × 7)
Physics I (Department of Electrical and Electronic Engineering, for 1st-year students)
mechanics of mass particle (spring term: 90 min × 16)
Quantum Mechanics I (Department of Electrical and Electronic Engineering, for 2nd-year students)
history and principle of quantum mechanics (spring term: 90 min × 16)
Quantum Mechanics II (Department of Electrical and Electronic Engineering, for 3rd-year students)
application of quantum mechanics (spring term: 90 min × 16)
Applied Physics (Department of Applied Chemistry, for 2nd-year students)
quantum mechanics and condensed matter physics (spring term: 90 min × 7)
Principles of the Theory of Solids (graduate school, for MC students)
mechanics and dynamics of electrons in solid state (spring term: 90 min × 5)
Computational Simulation for Condensed Matter Physics (graduate school, for MC students)
pseudo-random number and Brownian dynamics simulation (winter term: 90 min × 7)
Physics I (Department of Electrical and Electronic Engineering, for 1st-year students)
mechanics of mass particle (spring term: 90 min × 16)
Quantum Mechanics I (Department of Electrical and Electronic Engineering, for 2nd-year students)
history and principle of quantum mechanics (spring term: 90 min × 16)
Quantum Mechanics II (Department of Electrical and Electronic Engineering, for 3rd-year students)
application of quantum mechanics (spring term: 90 min × 16)
Applied Physics (Department of Applied Chemistry, for 2nd-year students)
quantum mechanics and condensed matter physics (spring term: 90 min × 7)
Principles of the Theory of Solids (graduate school, for MC students)
mechanics and dynamics of electrons in solid state (spring term: 90 min × 5)
Computational Simulation for Condensed Matter Physics (graduate school, for MC students)
pseudo-random number and Brownian dynamics simulation (winter term: 90 min × 7)
Physics I (Department of Electrical and Electronic Engineering, for 1st-year students)
mechanics of mass particle (spring term: 90 min × 16)
Quantum Mechanics I (Department of Electrical and Electronic Engineering, for 2nd-year students)
history and principle of quantum mechanics (spring term: 90 min × 16)
Principles of the Theory of Solids (graduate school, for MC students)
mechanics and dynamics of electrons in solid state (spring term: 90 min × 5)
Statistical Mechanics (Department of Electrical and Electronic Engineering, for 2nd-year students)
ensemble and quantum statistical mechanics (winter term: 90 min × 16)
Computational Simulation for Condensed Matter Physics (graduate school, for MC students)
pseudo-random number and Brownian dynamics simulation (winter term: 90 min × 7)
Physics I (Department of Electrical and Electronic Engineering, for 1st-year students)
mechanics of mass particle (spring term: 90 min × 16)
Applied Physics I (Department of Mechanical Engineering, for 2nd-year students)
mechanics of rigid body and analytical mechanics (spring term: 90 min × 16)
Principles of the Theory of Solids (graduate school, for MC students)
mechanics and dynamics of electrons in solid state (spring term: 90 min × 5)
Advanced Topics of Electrical, Electronic and Information Engineering (graduate school, for MC students)
Brownian motion (spring term: 90 min × 1)
Statistical Mechanics (Department of Electrical and Electronic Engineering, for 2nd-year students)
ensemble and quantum statistical mechanics (winter term: 90 min × 16)
Computational Simulation for Condensed Matter Physics (graduate school, for MC students)
pseudo-random number and Brownian dynamics simulation (winter term: 90 min × 7)
Physics I (Department of Electrical and Electronic Engineering, for 1st-year students)
mechanics of mass particle (spring term: 90 min × 16)
Applied Physics I (Department of Mechanical Engineering, for 2nd-year students)
mechanics of rigid body and analytical mechanics (spring term: 90 min × 16)
Statistical Mechanics (Department of Electrical and Electronic Engineering, for 2nd-year students)
ensemble and quantum statistical mechanics (winter term: 90 min × 16)
Computational Simulation for Material and Device Engineering Ⅱ (graduate school, for MC students)
pseudo-random number and Brownian dynamics simulation (winter term: 90 min × 7)
Physics I (Department of Electrical and Electronic Engineering, for 1st-year students)
mechanics of mass particle (spring term: 90 min × 16)
Applied Physics I (Department of Mechanical Engineering, for 2nd-year students)
mechanics of rigid body and analytical mechanics (spring term: 90 min × 16)
Statistical Mechanics (Department of Electrical and Electronic Engineering, for 2nd-year students)
ensemble and quantum statistical mechanics (winter term: 90 min × 16)
Computational Simulation for Material and Device Engineering Ⅱ (for MC students)
pseudo-random number and Brownian dynamics simulation (winter term: 90 min × 7)
Fundamental Physics (for B3 grade)
mechanics of mass particle (spring term: 90 min x 15)
Fundamental Physics (double-repeating class)
mechanics of mass particle (spring term: 90 min x 15)
Experiment (for TM1)
experiment of various phenomena (spring term: 180 min x 15)
Remedial Physics (for B3 grade)
exercise of Fundamental Physics (spring term: 90 min x 13)
Fundamental Physics (for TD, TA, and TH; repeating class)
mechanics of mass particle (winter term: 90 min x 15)
Remedial Physics (for TD, TA, and TH; repeating class)
exercise for Fundamental Physics (winter term: 90 min x 13)
Experiment (for TE1)
experiment of various phenomena (winter term: 180 min x 15)
Experiment (for TE2)
experiment of various phenomena (winter term: 180 min x 15)
Physics (for TA1)
mechanics of rigid body and thermodynamics (winter term: 90 min x 15)
Physics Seminar (for TA1)
exercise of Physics (winter term: 90 min x 15)
Industrial Dynamics (for TB)
mechanics of rigid body and elastic body (winter term: 90 min x 15)
Experiment (for TB)
experiment of various phenomena (winter term: 180 min x 15)
Fundamental Physics (for B3 grade)
mechanics of mass particle (spring term: 90 min x 15)
Fundamental Physics (double-repeating class)
mechanics of mass particle (spring term: 90 min x 15)
Experiment (for TM1)
experiment of various phenomena (spring term: 180 min x 15)
Remedial Physics (for B3 grade)
exercise of Fundamental Physics (spring term: 90 min x 13)
Fundamental Physics (for TD, TA, and TH; repeating class)
mechanics of mass particle (winter term: 90 min x 15)
Remedial Physics (for TD, TA, and TH; repeating class)
exercise for Fundamental Physics (winter term: 90 min x 13)
Experiment (for TE1)
experiment of various phenomena (winter term: 180 min x 15)
Experiment (for TE2)
experiment of various phenomena (winter term: 180 min x 15)
Physics (for TA1)
mechanics of rigid body and thermodynamics (winter term: 90 min x 15)
Physics Seminar (for TA1)
exercise of Physics (winter term: 90 min x 15)
Industrial Dynamics (for TB)
mechanics of rigid body and elastic body (winter term: 90 min x 15)
Experiment (for TB)
experiment of various phenomena (winter term: 180 min x 15)
Fundamental Physics (for B3 grade)
mechanics of mass particle (spring term: 90 min x 15)
Fundamental Physics (double-repeating class)
mechanics of mass particle (spring term: 90 min x 15)
Experiment (for TM1)
experiment of various phenomena (spring term: 180 min x 15)
Remedial Physics (for B3 grade)
exercise of Fundamental Physics (spring term: 90 min x 13)
Fundamental Physics (for TB and TE; repeating class)
mechanics of mass particle (winter term: 90 min x 15)
Remedial Physics (for TB and TE; repeating class)
exercise for Fundamental Physics (winter term: 90 min x 13)
Fundamental Physics (for TD, TA, and TH; repeating class)
mechanics of mass particle (winter term: 90 min x 15)
Remedial Physics (for TD, TA, and TH; repeating class)
exercise for Fundamental Physics (winter term: 90 min x 13)
Experiment (for TE1)
experiment of various phenomena (winter term: 180 min x 15)
Experiment (for TE2)
experiment of various phenomena (winter term: 180 min x 15)
Physics (for TA1)
mechanics of rigid body and thermodynamics (winter term: 90 min x 15)
Physics Seminar (for TA1)
exercise of Physics (winter term: 90 min x 15)
Industrial Dynamics (for TB)
mechanics of rigid body and elastic body (winter term: 90 min x 15)