Automotive Electrical Syllabuses

Course Type Basic Specialized Courses

______________________________________________________________________________●Course PurposeThe purpose of this course is to provide basic computer literacy skills and basiccomputer programming techniques for solving various problems in the C language throughexercises. ●Prerequisite Subjects ●Course Topics1. Basic computer literacy skills - Writing and sending e-mails - UNIX command lineinterface2. Basics of the C language - Data types and variables - Controlstructures (Selection, loop, etc.) - Functions - Standard C library functions(Input/Output, Math, etc.) - Fundamental data structures (Scalars, arrays, etc.)3.Problem Solving by Programming ●TextbookK. N. King: "C Programming: A Modern Approach, 2nd Edition", W. W. Norton & Company,2008 (ISBN: 978-0393979503) ●Additional Reading ●Grade AssessmentGrades will be based on weekly reports and class attendance. Students must obtain ascore of 60 or higher to pass the course. Grades: S: 100-90, A: 89-80, B: 79-70, C: 69-60, F: 59-0. ●NotesSubmission of duplicate reports and/or copies from other sources including the Web willbe severely penalized. Extreme cases will be subject to academic punishments accordingto the University's rule. ●Contacting FacultyStudents can communicate with their lecturer and TA during lecture hours or via email([email protected]).

Class Format LectureCourse Name Fundamental and

Applied PhysicsAutomotive Engineering Automotive Engineering

Starts 1 1 Autumn Semester 1 Autumn Semester 1 Autumn SemesterElective/Compulsory Compulsory Compulsory CompulsoryLecturer Ichiro IDE Associate

Professor

Computer Software I(2.0credits)(計算機ソフトウェア１)______________________________________________________________________________________


______________________________________________________________________________●Course PurposeThis is a companion course to Fundamental Physics I and Fundamental Physics II, andoffers practical exercises for mastering the concepts introduced in the lecturecourses. Students taking the lecture courses should also take this tutorial class. ●Prerequisite SubjectsCalculus I; Fundamental Physics I ; Fundamentals of Physics II ●Course TopicsThis is a companion course to Fundamental Physics I and Fundamental Physics II, andoffers practical exercises for mastering the concepts introduced in the lecturecourses. Students taking the lecture courses should also take this tutorial class.Seesyllabi for Fundamental Physics I, Fundamental Physics II. ●TextbookFundamentals of Physics Extended 9th Edition International Student Version withWileyPLUS Set (John Wiley & Sons, 2010　ISBN:9780470576083) ●Additional ReadingFundamentals of Physics Extended 9th Edition International Student Version withWileyPLUS Set (John Wiley & Sons, 2010　ISBN:9780470576083) ●Grade Assessment•Class attendance is required. Absentees must give a valid reason (e.g. doctor’scertificate). A student who is absent from more than 3 sessions will receive zero forthe semester attendance mark.•The “Absent” grade is reserved for students whowithdraw by November 16. After that day, a letter grade will be awarded based on marksearned from all assessment during the semester. ●NotesRemarks•No pre-requisite is required; however, students without a good background inhigh school physics and basic calculus are expected to spend more time on this course,and are advised to take this into consideration when deciding their course load.•Concurrent registration for Fundamental Physics I and Fundamental Physics II isrequired. •Students are expected to participate actively in class activities throughoutthe course. ●Contacting FacultyOffice: Science Hall 5F 517Phone: 052-789-2307Email: [email protected]

Class Format ExerciseCourse Name Chemistry Fundamental and

Applied PhysicsAutomotive Engineering

Automotive EngineeringStarts 1 1 Autumn Semester 1 Autumn Semester 1 Autumn Semester

1 Autumn SemesterElective/Compulsory Elective Elective Elective

ElectiveLecturer Wojdylo John Andrew

Designated AssociateProfessor

Fundamental Physics Tutorial I(2.0credits)(物理学基礎演習１)________________________________________________________________________________________________________


______________________________________________________________________________●Course PurposeThe aims of this course are to deepen students’ understanding of basic Physics ofelectricity and magnetism and to cultivate their ability to apply Physics knowledge. ●Prerequisite SubjectsFundamentals of Physics ●Course Topics1. Electric Charge and Electric Fields 2. Gauss’ Law 3. Electric Potential 4.Capacitance, Current, Resistance and Circuits 5. Magnetic Fields 6. Induction andInductance ●TextbookFundamentals of Physics�David Halliday, Robert Resnick, Jearl Walker John Wiley &Sons Inc ●Additional Reading ●Grade AssessmentClass attendance is required. Absentee must give a valid reason.Class Attendance: 20%;Tutorial Assignments & Quizzes: 60%. Participation: 20%. ●Notes ●Contacting Faculty



Automotive EngineeringStarts 1 1 Spring Semester 1 Spring Semester 1 Spring Semester

1 Spring SemesterElective/Compulsory Elective Compulsory Elective

ElectiveLecturer Bernard Gelloz

Designated Professor

Fundamental Physics Tutorial IIａ(1.0credits)(物理学基礎演習２ａ)______________________________________________________________________________________________________________


______________________________________________________________________________●Course PurposeThe aims of this course are to deepen students’ understanding of basic Physics ofelectricity, magnetism, waves and optics, and to cultivate their ability to applyPhysics knowledge. ●Prerequisite SubjectsFundamentals of Physics ●Course Topics1. Electromagnetic Oscillations and Alternating Current 2. Maxwell’s Equations3.Waves4. Electromagnetic Waves5. Images 6. Interference & Diffraction ●TextbookFundamentals of Physics�David Halliday, Robert Resnick, Jearl Walker John Wiley &Sons Inc ●Additional Reading ●Grade AssessmentClass attendance is required. Absentee must give a valid reason.Class Attendance: 20%;Tutorial Assignments & Quizzes: 60%. Participation: 20%. ●Notes ●Contacting Faculty




1 Spring SemesterElective/Compulsory Elective Compulsory Elective

ElectiveLecturer Bernard Gelloz


Fundamental Physics Tutorial IIｂ(1.0credits)(物理学基礎演習２ｂ)______________________________________________________________________________________________________________


______________________________________________________________________________●Course PurposeThis course introduces first order and second order ordinary differential equations andtheir solution methods. Students master exact and approximate analytical techniques forinitial value problems that arise in physics, engineering and chemistry. Questions ofexistence, uniqueness and convergence are also discussed. Fourier series follownaturally from the 2nd order theory and these are investigated, too. ●Prerequisite SubjectsCalculus I, Calculus II, Linear Algebra I, Linear Algebra II;or Consent of Instructor ●Course Topics• First order ordinary differential equation (ODE) initial value problems. Integrationfactor; separable equations; systems of ODEs (Hamiltonian systems); phase plane, flow.Uniqueness and existence theorems. Some differences between linear and nonlinear ODEs.• Second order linear ODE initial value problems. Homogeneous solution. Proving linearindependence (Wronskian). Method of Undetermined Coefficients; Variation of Parameters.Series solutions: ordinary point, regular singular point; convergence tests; Method ofFrobenius. Examples from physics, engineering and chemistry.• Fourier series. Dirichlet conditions. Role of symmetry. Gibbs phenomenon. Effect ofjump discontinuity on speed of convergence. Integration and differentiation of Fourierseries. ●Textbook4th periodNone 5th periodBoyce W., DiPrima R, Elementary Differential Equations, 9th or 10th Ed., Wiley. ●Additional ReadingRecommended Reading1.Boyce W., DiPrima R, Elementary Differential Equations, 9th or 10th Ed., Wiley.2.Strang, G., Introduction to Linear Algebra, 4th Edition, Chapter 6.3.Riley K.F., Hobson M.P., and Bence S. J., 2006, Mathematical Methods for Physics andEngineering, 3rd ed., Cambridge University Press.4.Boas M.L., 1983, Mathematical Methods in the Physical Sciences, John Wiley & Sons.5.Arfken G.B. & Weber H.J., 2005, Mathematical Methods for Physicists, 6th ed.,Elsevier Academic Press. (Copies are available in the library.) ●Grade AssessmentAttendance: (20%)Lecture exercises: (30%)Examinations: (50%)Students need to obtain at least 60% of the total marks to pass the course.

Class Format Lecture and ExerciseCourse Name Fundamental and


Starts 1 2 Autumn Semester 2 Autumn Semester 2 Autumn SemesterElective/Compulsory Compulsory Compulsory CompulsoryLecturer Masaharu TANABASHI

ProfessorWojdylo John AndrewDesignated AssociateProfessor

Mathematics I and Tutorial(3.0credits)(数学１及び演習)______________________________________________________________________________________________

●NotesConcurrent registration in Mathematics I and Tutorial is advised. ●Contacting Faculty4th periodOffice: ES Building, ES719Phone: 052-789-2859Email: [email protected] 5th periodOffice: Science Hall 5F 517Phone: 052-789-2307Email: [email protected]

Mathematics I and Tutorial(3.0credits)(数学１及び演習)______________________________________________________________________________________________


______________________________________________________________________________●Course PurposeBuilding on the mathematics and physics knowledge gained in Fundamental Major Subjects,this course introduces students to vector analysis and partial differential equations,expecting their applications to advanced engineering, such as those related tomechanics and electromagnetics, and those to materials and heat transfer phenomena .The purpose of the course is to acquire fundamental knowledge in vector analysis andpartial differential equations and enable students to apply this to solve actualengineering issues through intensive exercises. ●Prerequisite SubjectsFundamental Major Subjects: physics and mathematics courses ●Course Topics1. Orientation of the course2. Vector algebra3. Vector differential operations4. Vectorintegration5. Gauss theorem, Green's theorem and Stokes theorem6. Concept of partialdifferential equations7. Modelling: Vibrating String, Wave equation8. Sparation ofvariables, Use of Fourier series9. Heat equation: Solution by Fourier series ●TextbookTBA ●Additional ReadingMathematical Methods for Physicists, sixth editionby G. B. Arfken and H. J.WeberElesevier, 2005(ISBN: 0-12-088584-0) ●Grade AssessmentAttendance: (20%)Lecture exercises: (30%) Examinations: (50%) Students need to obtainat least 60% of the total marks to pass the course. ●Notes•Students taking Mathematics I and Tutorial. ●Contacting FacultyOffice: Bld. No. 6, Room No. 109, Tel: 052-789-5200,E-mail : [email protected]

Class Format Lecture and ExerciseCourse Name Fundamental and


Starts 1 2 Autumn Semester 2 Autumn Semester 2 Autumn SemesterElective/Compulsory Compulsory Compulsory CompulsoryLecturer Shunsuke MUTO

Professor

Mathematics II and Tutorial(3.0credits)(数学２及び演習)________________________________________________________________________________________________


______________________________________________________________________________●Course PurposeTheoretical formalism using Lagrangians and Hamiltonians is very useful for studyingthe motion of dynamical systems consisting of point particles and rigid bodies. In thislecture, students will gain an understanding of fundamental principles of theoreticalformalism and learn technical aspects through simple applications. ●Prerequisite Subjects ●Course Topics1. General coordinates and the Euler-Lagrange equation2. The Euler-Lagrange equationand constraints3. Variational principle4. The Hamilton equations and canonicaltransformation Analytics classical mechanicsStudents will solve problems under facultyguidance. ●TextbookClassical Mechanics, Herbert Goldstein, Addison-Wesley ●Additional Reading ●Grade Assessment ●Notes ●Contacting Faculty

Class Format Lecture and ExerciseCourse Name Automotive Engineering Automotive EngineeringStarts 1 2 Autumn Semester 2 Autumn SemesterElective/Compulsory Compulsory CompulsoryLecturer Foong See Kit


Analytical Dynamics and Tutorial(2.5credits)(解析力学及び演習)____________________________________________________________________________________________________________


______________________________________________________________________________●Course PurposeThe purpose of this course is to develop an understanding of basic electrical-circuittheory and responses of electrical circuits. Upon completion of the course, studentswill be able to (1)describe responses of electrical circuits with circuit equations,(2) explain steady-state and transient phenomena in electrical circuits, and(3)understand various phenomena by utilizing equivalent circuit analysis. ●Prerequisite Subjects+ Mathematics（Linear Algebra, Calculus, Complex and Vector Analyses)+ Electricity andMagnetism ●Course Topics1. Electrical Quantities (Charge, Current, Electrical Potential and Power)2. CircuitConcepts and Elements (Resistance, Inductance and Capacitance)3. CircuitLows(Kirchhoff's Voltage and Current Laws)4. Circuit Analysis Methods (Matrices,Thevenin's and Norton's Theorems)5. Waveforms and Signals for AC Circuits6. First-OrderCircuits (RC and RL Circuits)7. Higher-Order Circuits (RLC Circuits)8. SinusoidalSteady-State Circuit Analysis9. AC Power10. Frequency Response of AC Circuits11. MutualInductance and Transformers ●TextbookElectric Circuits-5th EditionEds. by Mahmood Nahvi and Joseph A. EdministerSchaum'sOutlines Series, The McGraw-Hill Comp, Inc. 2011 ●Additional ReadingFor Examples:Electric Circuits (9th Edition) [Hardcover] Eds. by James W. Nilsson andSusan RiedelISBN-10: 0136114997ISBN-13: 978-0136114994 ●Grade AssessmentGrades will be based on a midterm examination (40%),final examination (40%), andreports (20%). Students must obtain a score of 60 or higher to pass the course.GradePoints;100～90:S, 89～80:A, 79～70:B, 69～60:C, <59:F ●Notes ●Contacting FacultyQuestions are accepted after each lecture at the class room or in the office byappointment. To S. Miyazaki, call ext.3588 or e-mail to [email protected]. Nakazato, call ext.3307 or e-mail to [email protected]

Class Format LectureCourse Name Automotive Engineering Automotive EngineeringStarts 1 2 Autumn Semester 2 Autumn SemesterElective/Compulsory Compulsory CompulsoryLecturer MIYAZAKI Seiichi

ProfessorKazuo NakazatoProfessor

Electrical Circuits Engineering(2.0credits)(電気回路工学)______________________________________________________________________________________________________


______________________________________________________________________________●Course PurposeIn this course, students will study the fundamentals of stress, strain, and howmaterials deform. Students will also solve problems related to the course topics underthe guidance of the faculty. By the end of the course, students will: 1. Understandthe concepts of stress and strain.2. Have the ability to analyze stress in rods andbeams that undergo tension, compression, bending, and torsion.3. Have the ability toanalyze combined stresses in rods and beams.4. Have the ability to determine the strainenergy in rods and beams. ●Prerequisite SubjectsCalculus & Physics ●Course Topics1. Stress and strain 2. Tension and compression 3. Beam bending 4. Torsion of a bar 5.Combined stress 6. Strain energy 7. Buckling of a column ●TextbookStrength of Materials, S. Timoshenko, ISBN: 9780898746211(Copies are available in themain library) ●Additional ReadingHistory of Strength of Materials, Timoshenko, ISBN: 978-0486611877(Copies are availablein the main library) ●Grade AssessmentStudents must obtain a letter grade of C or above to pass the course. Letter grades areassigned based on the percentages:�S:100-90�A:89-80�B:79-70�C:69-60�F:59-0Thesemester percentile grade is based on the following breakdown:�Homework Assignments -20%�Mid-term Exam - 20%�Term Project - 30%�Final Exam - 30%Homework assignments willbe graded based on a 10 point scale. The term project, mid-term exam, and final examwill be based on a 100 point scale. The final exam will be comprehensive. ●Notes ●Contacting FacultyOffice hours for the semester will be specified during the first lecture.Questions viaemail are welcomed anytime: [email protected]

Class Format Lecture and ExerciseCourse Name Automotive Engineering Automotive EngineeringStarts 1 2 Autumn Semester 2 Autumn SemesterElective/Compulsory Compulsory CompulsoryLecturer Blaine Levedahl


Mechanics of Materials and Tutorial(2.5credits)(材料力学及び演習)__________________________________________________________________________________________________________________


______________________________________________________________________________●Course PurposeThis subject introduces thermodynamics and its applications in automotiveengineering.The main focus of this course is to understand the basic principles ofclassical thermodynamics which are the basis for macroscopicunderstanding of all thephysical phenomena. ●Prerequisite SubjectsCalculus 1,2Linear Algebra 1,2Fundamentals of Physics 1,2,3,4Fundamentals of Chemistry1,2 ●Course Topics1. Thermal Equilibrium and Temperature2. State Equations, Partial Differentials, Unitsand Dimensions 3. The First Law of Thermodynamics4. The Second Law of Thermodynamics 5.Entropy 6. Thermodynamic Functions 7. Phase Equilibrium and Chemical Equilibrium 8.Kinetic Theory and Statistical MechanicsStudents will solve problems under guidance ofa faculty ●TextbookPrinted handouts will be provided. ●Additional ReadingModern Engineering Thermodynamics; Robert T. Balmer; Academic Press (2010) ●Grade AssessmentGrades will be based on class participation, assignments and a final examination.30%for attendance30% for assignments40% for final examination ●Notes ●Contacting FacultyStudents can ask questions at any time during classes.Questoins during off-class hourscan be asked at the lecturer's room (Engineering Building No.3 North Wing, Room 223(3125)) or via e-mail: [email protected]

Class Format Lecture and ExerciseCourse Name Automotive Engineering Automotive EngineeringStarts 1 2 Autumn Semester 2 Autumn SemesterElective/Compulsory Compulsory CompulsoryLecturer Fujio TAKIMOTO


Thermodynamics and Tutorial(2.5credits)(熱力学及び演習)________________________________________________________________________________________________


______________________________________________________________________________●Course PurposeIn this course, students will learn to analyze basic mechanisms commonly found inautomobiles, aircraft, and fabrication devices. Students will also be encouraged toapply these basic mechanisms to enhance their understanding of the mechanical worldaround them. By the end of the course students will be able to analyze the position,velocity, and acceleration of the elements of single and multiple degree-of-freedomlinkages and understand and analyze the different methods of motion transmission. ●Prerequisite SubjectsCalculus & Linear Algebra ●Course Topics1. Mechanisms types (pair, chain)2. Kinematics of mechanisms (instantaneous center,centrode)3. Velocity and acceleration of machine element (graphical analysis &algebraic analysis)4. Linkage mechanism (quadric crank chain)5. Transmission of motion(cam, rolling contact, toothed wheels, wrapping connector) ●TextbookKinematics and Dynamics of Machines, G. Martin, ISBN: 9781577662501(Copies areavailable in the main library.) ●Additional ReadingAs handed out in class. ●Grade AssessmentStudents must obtain a letter grade of C or above to pass the course. Letter grades areassigned based on the percentages:�S:100-90�A:89-80�B:79-70�C:69-60�F:59-0Thesemester percentile grade is based on the following breakdown:�Homework Assignments -50%�Mid-term Exam - 20%�Final Exam - 30%Homework assignments will be graded based ona 10 point scale. The mid-term exam and final exam will be based on a 100 point scale. ●Notes ●Contacting FacultyOffice hours for the semester will be specified during the first lecture.Questions viaemail are welcomed anytime: [email protected]

Class Format LectureCourse Name Automotive Engineering Automotive EngineeringStarts 1 2 Autumn Semester 2 Autumn SemesterElective/Compulsory Compulsory ElectiveLecturer Blaine Levedahl


Kinematics of Machines(2.0credits)(機構学)______________________________________________________________________________


______________________________________________________________________________●Course PurposeThis course offers a solid introduction to electrostatics and magnetostatics. It alsointroduces fundamental mathematical methods required to solve problems in physics,engineering and applied mathematics. ●Prerequisite SubjectsCalculus I&II; Fundamentals of Physics III&IV; Mathematical Physics II or Consent ofInstructor.Physics Tutorial IIa ●Course Topics・Revision of vector calculus, curvilinear coordinates, Dirac Delta Function.•Electrostatics. Coulomb's Law. Continuous Charge Distributions. Divergence and Curl ofElectrostatic Fields. Field Lines, Flux, and Gauss's Law. Electric Potential. Poisson'sEquation and Laplace's Equation. The Potential of a Localized Charge Distribution. Workand Energy in Electrostatics. Conductors. Induced Charges. Surface Charge and the Forceon a Conductor. • Special Techniques. The Method of Images. Separation of Variables.•Electric Fields in Matter. Polarization. Dielectrics. The Electric Displacement. LinearDielectrics. • Magnetostatics. The Lorentz Force Law. The Biot-Savart Law. TheDivergence and Curl of B. Applications of Ampere's Law. Magnetic Vector Potential. •Magnetic Fields in Matter. Magnetization. Diamagnets, Paramagnets, Ferromagnets. TheAuxiliary Field H. Magnetic Susceptibility and Permeability. • Introduction toElectrodynamics. Electromotive Force. Electromagnetic Induction. Faraday's Law. Energyin Magnetic Fields. Maxwell's Equations. ●TextbookGriffiths, D.L., 2012, Introduction to Electrodynamics, 4th ed., Prentice Hall. (Mostof the material will be taken from this book.) ●Additional ReadingRecommendedReadingLeighton, R.B. & Feynman, R.P., Feynman Lectures on Physics (Volume2), Pearson. (Highly recommended alternative reading.) ●Grade AssessmentAttendance: 10%;�Weekly Quizzes: 20%; Mid-term exam: 30%; Final Exam: 40% The“Absent” grade is reserved for students who withdraw by May 16. After that day, aletter grade will be awarded based on marks earned from all assessment during thesemester. ●Notes•Concurrent registration in Physics Tutorial IIa is advised. •Unless a prior specialarrangement is made with the lecturer, students must be familiar with vector calculus(div, grad, curl; line, surface, volume integrals; etc.) to take this course. (Vectorcalculus is taught in Mathematical Physics II.) ●Contacting Faculty

Class Format LectureCourse Name Chemistry Fundamental and


Starts 1 2 Spring Semester 2 Spring Semester 2 Spring SemesterElective/Compulsory Elective Compulsory CompulsoryLecturer Wojdylo John Andrew


Electricity and Magnetism(2.0credits)(電磁気学)______________________________________________________________________________________

Office: Science Hall 5F 517Phone: 052-789-2307Email: [email protected] and Magnetism(2.0credits)(電磁気学)______________________________________________________________________________________


______________________________________________________________________________●Course PurposeThe purpose of this course is to learn various properties of metallic and ceramicmaterials.Students will acquire general and fundamental knowledge of metals, alloys and ceramics,including crystal structures, physical properties and material processing techniques. ●Prerequisite SubjectsMechanics of Materials with exercises ●Course TopicsContents treated in this program are as follows:1.Crystal structures of metals and alloys2.Deformation and dislocation of metals3.Strengthening of metals4.Mechanical properties of metals and ceramics5.Phase diagrams6.Processing and forming of metals and ceramics ●TextbookThere is no textbook but printed materials will be distributed in class. ●Additional ReadingReference books will be introduced as required. ●Grade AssessmentStudents must obtain a score of 60 or higher to pass the course.Grades: S:100-90, A:89-80, B:79-70, C:69-60, F:59-0. ●Notes ●Contacting FacultyStudents can ask questions during and after lectures,as well as via e-mail.

Class Format LectureCourse Name Automotive Engineering Automotive EngineeringStarts 1 2 Spring Semester 2 Spring SemesterElective/Compulsory Compulsory CompulsoryLecturer Makoto KOBASHI

Associate Professor

Metallic and Ceramic Materials(2.0credits)(金属材料とセラミックス)______________________________________________________________________________________________________________


______________________________________________________________________________●Course PurposeThe purpose of this course is to study basic analog transistor circuits, and to masterthe design of amplifiers and other analog electronic circuits. ●Prerequisite SubjectsElectrical Circuit ●Course Topics1. Introduction2. Amplification using transistor and equivalent circuit3. Poweramplifiers4. Direct-coupled amplifiers5. C-R coupled amplifiers6. Negative feedbackamplifiers7. Operational amplifiers8. Oscillators ●Textbook ●Additional ReadingPrinciples of Transistor Circuits, Ninth Edition, Addison Wesley ●Grade AssessmentStudents must obtain a score of 60 or higher to pass the course. Grades: S:100-90,A:89-80, B:79-70, C:69-60, F:59-0. ●Notes ●Contacting FacultyE-mail :Satoshi IWATA :[email protected]�Noriyasu OHNO: [email protected]

Class Format LectureCourse Name Automotive Engineering Automotive EngineeringStarts 1 2 Spring Semester 2 Spring SemesterElective/Compulsory Elective CompulsoryLecturer Satoshi IWATA

ProfessorNoriyasu ONOProfessor

Electronic Circuits(2.0credits)(電子回路工学)______________________________________________________________________________


______________________________________________________________________________●Course PurposeThe purpose of this course is to learn two- and three-dimensional theories ofelasticity. The goals are to come to be able (1) to understand and explain equations ofequilibrium, relationship between displacements and strains, compatibility of straincomponents, Hooke's Law, boundary conditions for three-dimensional elastic bodies, (2)to understand and use a method to solve two-dimensional problems by using Airy stressfunction, and (3) to understand and use energy theorems. ●Prerequisite SubjectsMechanics of Materials with Exercises, Fundamentals of Physics (desirable) ●Course Topics1. Stress and Strain (Three-dimensional General Theory)2. Relationship between Stress and Strain (Equations of Elasticity)3. Two-dimensional Theory of Elasticity4. Principles of Energy5. Torsion of a Shaft ●TextbookTimoshenko, S. and Goodier, J. N., “Theory of Elasticity,” McGraw-Hill PublishingCompany; International ed of 3rd revised ed (1970/10) ●Additional ReadingFung, Y. C. and Tong, P., “Classical and Computational Solid Mechanics (AdvancedSeries in Engineering Science),” World Scientific Pub Co Inc (2001/10)Sass, M. H., “Elasticity, Theory, Applications, and Numerics” Elsevier, 2nd ed (2009) ●Grade AssessmentGrades will be based on examinations. Students must obtain a minimum score of 60/100 topass the course.Grades: S:100-90, A:89-80, B:79-70, C:69-60, F:59-0. ●Notes ●Contacting FacultyStudents can ask questions any time.E-mail: [email protected]

Class Format LectureCourse Name Automotive Engineering Automotive EngineeringStarts 1 2 Spring Semester 2 Spring SemesterElective/Compulsory Elective ElectiveLecturer Tadashige IKEDA

Associate Professor

Solid Mechanics(2.0credits)(固体力学)__________________________________________________________________


______________________________________________________________________________●Course PurposeThe purpose of this course is to understand the fundamental characteristics of fluidmotions applied to many areas of fluid mechanics and learn the physical laws governingthem. Students will:(1) understand the properties, basic principles, and concepts offluids.(2) learn about the basic equations derived from above, i.e. continuityequation, motion equation, and energy equation, and be able to use them incalculations, and (3) comprehend the aspects and properties of fluids conceptuallyutilizing the engineering observations of practical examples.. ●Prerequisite Subjects ●Course Topics1. Properties of Fluid2. Flow around bodies3. Thermodynamics of fluid4. Basic equationsof fluid mechanicsStudents will solve problems under faculty guidance. ●TextbookTo be determined ●Additional Reading ●Grade Assessment30% in attendance, 30% in reports, 40% in final examination ●Notes ●Contacting Faculty

Class Format Lecture and ExerciseCourse Name Automotive Engineering Automotive EngineeringStarts 1 2 Spring Semester 2 Spring SemesterElective/Compulsory Compulsory CompulsoryLecturer Fujio TAKIMOTO


Fluid Mechanics I and Tutorial(2.5credits)(流体力学１及び演習)__________________________________________________________________________________________________________


______________________________________________________________________________●Course PurposeThis course introduces the fundamentals of analysing vibrating systems that isnecessary in dynamic design and elastic analysis of machinery. Students will also solveproblems related to the course topics under the guidance of the faculty. By the end ofthe course, students should be familiar with the analysis of single and multipledegree-of-freedom systems. ●Prerequisite SubjectsCalculus, Kinematics of Machines, & Analytical Dynamics ●Course Topics1. Kinematics and characteristics of vibration2. Vibration of single degree-of-freedomsystems3. Vibration of two degree-of-freedom systems4. Vibration of multiple degree-of-freedom systems ●TextbookMechanical Vibrations, J.P. Den Hartog, ISBN: 9780486647852(Copies available inlibrary) ●Additional ReadingAs handed out in class. ●Grade AssessmentStudents must obtain a letter grade of C or above to pass the course. Letter grades areassigned based on the percentages:�S:100-90�A:89-80�B:79-70�C:69-60�F:59-0Thesemester percentile grade is based on the following breakdown:�Homework Assignments -50%�Mid-term Exam - 20%�Final Exam - 30%Homework assignments will be graded based ona 10 point scale. The mid-term exam and final exam will be based on a 100 point scale. ●Notes ●Contacting FacultyOffice hours for the semester will be specified during the first lecture.Questions viaemail are welcomed any time: [email protected]

Class Format Lecture and ExerciseCourse Name Automotive Engineering Automotive EngineeringStarts 1 2 Spring Semester 2 Spring SemesterElective/Compulsory Compulsory CompulsoryLecturer Blaine Levedahl


Vibration Engineering and Tutorial(2.5credits)(振動学及び演習)______________________________________________________________________________________________________________


______________________________________________________________________________●Course PurposeThis course discusses the fundamentals of chemical systems used in automobiles, such asfuels and combustion, energy management, fuel cell systems, and exhaust gas handling. ●Prerequisite SubjectsThermodynamics with Exercises ●Course TopicsFundamental chemistry for automobiles: 1. Spontaneous chemical reactions 2. Chemicalequilibrium 3. Electro-chemistry 4. Surface and interface chemistry 5. Tribology 6.Lubricant 7. Separation 8. Mass transfer, mass balance and flow rate 9. Petroleumprocessing ●TextbookHandouts will be distributed in class. ●Additional ReadingPhysical Chemistry 9th ed. Atkins & de Paula ●Grade AssessmentGrades will be based on three mid-term examinations (5,10,15), regular assignments andattendance. Students must obtain a score of 60 points or higher to pass the course.There will be no final examination. ●Notes ●Contacting FacultyStudents can ask questions during and after lectures, as well as via email. They canalso ask questions by e-mail. Email: H.KITA: [email protected], K.YASUDA:[email protected], S.NII: [email protected]

Class Format LectureCourse Name Automotive Engineering Automotive EngineeringStarts 1 3 Autumn Semester 3 Autumn SemesterElective/Compulsory Elective ElectiveLecturer Hideki KITA Professor Keiji　YASUDA

Associate ProfessorSusumu NII AssociateProfessor

Automobile Chemical Systems I(2.0credits)(自動車化学システム１)__________________________________________________________________________________________________________


______________________________________________________________________________●Course PurposeIn generally science and measurement are closely correlated and product technologieshave been developed with developing measurement technologies. The purpose of the courseis to develop an understanding of the fundamentals of measurement systems, includingsensor devices and signal processing circuits. ●Prerequisite SubjectsElectronics, Electrical circuit ●Course Topics1. Outline (systematization of measurement etc.)2. Operation principle of sensingelements3・Signal detection and conversion4・Signal processing ●Textbook ●Additional Reading ●Grade AssessmentReport Credits will be awarded to those students who score 60 or more. Grades are asfollows:S:100-90, A:89-80, B:79-70, C:69-60, F:59-0. ●Notes ●Contacting FacultyQuestions are accepted after each lecture at the class room or in the office byappointment. To T. Uchiyama, call ext.3617 or e-mail to [email protected] ToK. Niitsu, call ext.2794 or e-mail to [email protected]



Starts 1 3 Autumn Semester 3 Autumn Semester 3 Autumn SemesterElective/Compulsory Elective Elective CompulsoryLecturer Tsuyoshi Uchiyama

Associate ProfessorKiichi NIITSU Lecturer

Scientific Measurements(2.0credits)(計測工学)__________________________________________________________________________________


______________________________________________________________________________●Course PurposeIn this course students will study control system design using transfer functionrepresentation and frequency response methods. Students will also be introduced tostate-space representation and solve problems related to the course topics under theguidance of the faculty. By the end of the course, students should be familiar with thedesign and analysis of single-input/single-output (SISO) & multi-input/multi-output(MIMO) closed-loop control systems. ●Prerequisite SubjectsCalculus, Linear Algebra, & Analytical Dynamics ●Course Topics1. Overview of control system design (open-loop vs. closed-loop, classical vs. modern,etc.) 2. Modeling of the control system (plant, sensor, control law, and actuator & 1stvs. 2nd order systems)3. Transient and steady-state response analysis.5. Stability ofSISO and MIMO closed-loop control systems.6. SISO control system design - root-locusand frequency-domain approaches.7. MIMO control system design and analysis. ●TextbookLinear System Theory and Design (Oxford Series in Electrical and Computer Engineering) ●Additional ReadingModern Control Engineering-5th International Ed., K. Ogata,ISBN:9780137133376Introduction to Dynamics and Control, L. Meirovitch, ISBN:9780471870746(Copies available in library) ●Grade AssessmentStudents must obtain a letter grade of C or above to pass the course. Letter grades areassigned based on the percentages:�S:100-90�A:89-80�B:79-70�C:69-60�F:59-0Thesemester percentile grade is based on the following breakdown:�Homework Assignments -50%�Final Exam - 50%Homework assignments will be graded based on a 10 point scale. Theterm project, mid-term exam, and final exam will be based on a 100 point scale. ●Notes ●Contacting FacultyOffice hours for the semester will be specified during the first lecture.Questions viaemail are welcomed any time: [email protected]

Class Format Lecture and ExerciseCourse Name Automotive Engineering Automotive EngineeringStarts 1 3 Autumn Semester 3 Autumn SemesterElective/Compulsory Compulsory CompulsoryLecturer Blaine Levedahl


Control Engineering and Tutorial(2.5credits)(制御工学及び演習)____________________________________________________________________________________________________________


______________________________________________________________________________●Course PurposeThe purpose of the lecture is to develop an understanding of materials processingtechnologies in relation to material science. ●Prerequisite SubjectsMaterial engineering, Strength of materials, Dynamics ●Course Topics(1) Materials, processing and human life (2) Fundamentals of the mechanical behavior ofmaterials (3) Structure and manufacturing properties of metals (4) Metal-castingprocesses and equipment; heat treatment (5) Bulk deformation processes (6) Material-removal processes: cutting (7) Material removal processes: abrasive, chemical,electrical and high-energy beams ●TextbookManufacturing Process for Engineering Materials Fifth Edition, Addison Wesley ●Additional ReadingN/A ●Grade AssessmentStudents must obtain a score of 60 or higher to pass the course. Grades: S:100-90,A:89-80, B:79-70, C:69-60, F:59-0. ●Notes ●Contacting FacultyStudents are requested to direct questions to the lecturer via email.

Class Format LectureCourse Name Automotive Engineering Automotive EngineeringStarts 1 3 Autumn Semester 3 Autumn SemesterElective/Compulsory Compulsory ElectiveLecturer Noritsugu Umehara

Professor

Material Processing(2.0credits)(材料加工学)____________________________________________________________________________

Course Type Specialized Courses

______________________________________________________________________________●Course PurposeThe aim of this course is to deepen the understanding of mathematics (calculus andlinear algebra) and to cultivate the ability to apply mathematical knowledge. And thiscourse connects high school mathematics and university mathematics. ●Prerequisite SubjectsCalculus II and Linear Algebra II.PrerequisiteCalculus I and Linear Algebra I. ●Course Topics1. Limits and continuity2. Single variable differentiations3. Single variableintegration4. Basic analytic geometry5. Matrices6. Gaussian elimination7. Determinants ●Textbook ●Additional ReadingJames StewartSingle Variable Essential Calculus, Early Transcendentals, CengageLearning, 2006.(608 pp., ISBN: 0495109576)Otto BretscherLinear Algebra withApplications, Prentice Hall, 2008. (504 pp., ISBN: 0136009263) ●Grade AssessmentGrades will be determined based on four assessed courseworks, each of them marked outof 25. The gradingscale will be S: 90-100, A: 80-89, B: 70-79, C: 60-69, F: 0-59.Anyonewho submits at least one assessed courseworks and does not withdraw from the coursewill be graded S, A, B, C or F. ●Notes ●Contacting [email protected]@math.nagoya-u.ac.jp





ElectiveLecturer RICHARD Serge

Charles DesignatedAssociate Professor

HERBIG Anne-KatrinDesignated AssociateProfessor

Mathematics Tutorial I(1.0credits)(数学演習１)__________________________________________________________________________________


______________________________________________________________________________●Course PurposeThe purpose of the course is to develop an understanding of the basic structure andphysics of vehicles through practice of car disassembly and assembly. ●Prerequisite SubjectsPhysics ●Course Topics1. History of vehicle development2. Basic vehicle physics3. Basic vehicle structure4.Practice of disassembly and assembly of a car ●Textbook ●Additional ReadingHandouts will be distributed. ●Grade AssessmentGrades will be based on a report. Students must obtain a score of 60 or higher to passthe course. Grades : S:100-90, A:89-80, B:79-70, C:69-60, F:59-0. ●Notes ●Contacting FacultyStudents can contact their lecturer by email.

Class Format LectureCourse Name Automotive Engineering Automotive EngineeringStarts 1 1 Autumn Semester 1 Autumn SemesterElective/Compulsory Compulsory CompulsoryLecturer Kouji MIZUNO

Professorpart-time faculty part-time faculty

Introduction to Automotive Engineering(2.0credits)(自動車工学概論)______________________________________________________________________________________________________________________


______________________________________________________________________________●Course PurposeThe aim of this course is to deepen the understanding of mathematics (calculus andlinear algebra) and to cultivate the ability to apply mathematical knowledge. ●Prerequisite SubjectsCalculus II and Linear Algebra II.PrerequisiteCalculus I and Linear Algebra I. ●Course TopicsWe will present problems and their solutions based on the material that is presented inthe courses Calculus IIand Linear Algebra II covering the following topics:1. Limitsand continuity of multivariable functions2. Differentiability of multivariablefunctions3. Integration of multivariable functions4. Vector spaces5. Linear maps6.Eigenvectors and eigenvalues ●Textbook ●Additional ReadingSusan J. ColleyVector Calculus, Third Edition, Prentice Hall, 2005. (576 pp., ISBN:0131858742)Otto BretscherLinear Algebra with Applications, Prentice Hall, 2008. (504pp., ISBN: 0136009263) ●Grade AssessmentGrades will be determined based on four assessed courseworks, each of them marked outof 25. The gradingscale will be S: 90-100, A: 80-89, B: 70-79, C: 60-69, F: 0-59.Anyonewho submits at least one assessed courseworks and does not withdraw from the coursewill be graded S, A, B, C or F. ●Notes ●Contacting Faculty




1 Spring SemesterElective/Compulsory Elective Elective Elective

ElectiveLecturer RICHARD Serge

Charles DesignatedAssociate Professor

HERBIG Anne-KatrinDesignated AssociateProfessor

Mathematics Tutorial II(1.0credits)(数学演習２)____________________________________________________________________________________


______________________________________________________________________________●Course PurposeBuilding on the knowledge gained in Computer Software 1, students will acquire advancedprogramming skills through C-programming exercises. Advanced programming includesfunctions, arrays, string operations, structures, I/O, pointers, complex datastructures, and large-scale programming. In the latter part of the course, studentswill acquire the skills to create practical large-scale programs utilizing severaladvanced programming tools. ●Prerequisite SubjectsComputer Software 1 ●Course Topics1. Review of Computer Software 12. Functions3. Arrays4. String processing5. I/Ohandling 6. Pointers7. Structures8. Data structures9. Compiling large programs viamake10. Programming project I11. Programming project II12. Programming project III13.Programming project IV14. Programming project V15. Programming project VI ●TextbookK N King. C Programming: A Modern Approach. 2nd ed. ●Additional Reading ●Grade AssessmentHomework assignments : 50% Programming projects : 50% Students must obtain a score of60 or higher to pass the course. ●Notes ●Contacting FacultyStudents are encouraged to ask questions during and after lectures.Faculty members canalso be contacted at their offices, as well as by phone or email.



Starts 1 1 Spring Semester 1 Spring Semester 1 Spring SemesterElective/Compulsory Compulsory Elective CompulsoryLecturer Tachio Terauchi

Associate Professor

Computer Software II(2.0credits)(計算機ソフトウェア２)________________________________________________________________________________________


______________________________________________________________________________●Course PurposeIn this course, students will learn about vehicle structures. The purpose ofthe courseis to develop an understanding of the structure and mechanism ofvehicle body, chassis,and power train. ●Prerequisite Subjects ●Course Topics1. Design and BodyProduct PlanningBodyEquipment2. ChassisSuspensionSteeringBrake3.Power TrainEngineElectric PropulsionDrive Train ●TextbookAutomotive Engineering Fundamentals, SAE ●Additional Reading ●Grade Assessment ●Notes ●Contacting Faculty

Class Format LectureCourse Name Automotive Engineering Automotive EngineeringStarts 1 2 Spring Semester 2 Spring SemesterElective/Compulsory Compulsory CompulsoryLecturer Fujio TAKIMOTO


Vehicle Structures(2.0credits)(自動車構造)__________________________________________________________________________


______________________________________________________________________________●Course Purpose ●Prerequisite Subjects ●Course Topics ●Textbook ●Additional Reading ●Grade Assessment ●Notes ●Contacting Faculty

Class Format LectureCourse Name Automotive EngineeringStarts 1 2 Spring SemesterElective/Compulsory CompulsoryLecturer associated faculty

Introduction to Electrical/ Electronic and Information Engineering for Automobiles(2.0credits)(自動車のための電子・情報技術)____________________________________________________________________________________________________________________________________________________________________________________________________________________________


______________________________________________________________________________●Course PurposeMechanical drawing is a fundamental subject, which connects mechanical design andmanufacturing, in production technology educations. This course provides the basic oftwo-dimensional mechanical drawings, and students learn how to make a drawing by CAD(Computer Aided Design) software through several projects. They also study three-dimensional geometry creation (CAD) and computer aided manufacturing (CAM). Cutterlocation (CL) data for machining operations are created by utilizing CAM software, andmechanical structures are fabricated in practice with by using a vertical machiningcenter and NC programs. ●Prerequisite Subjectsgraphics, mechanics ●Course Topics1) Practice of 2D drawings of 3D objects by using CAD software. 2) Practice ofdescription of dimensions, dimension lines, and dimensional tolerances on the 2Ddrawings by using CAD software. 3) Practice of description of center lines and hiddenoutlines on the 2D drawings by using CAD software. 4) Practice of description ofscrews, holes, and counterbores on the 2D drawings by using CAD software. 5) Practiceof description of surface textures, geometric tolerances, and fits on the 2D drawingsby using CAD software. 6) Practice of 3D geometry creation of 3D object includingrounded surfaces by using CAD software. 7) Practice of toolpath generation formanufacturing 3D objects by using commercial CAM software. 8) Practice of machining byutilizing a vertical machining center and generated CL data. ●TextbookDistributed at lectures.Other reference materials are distributed through followingsite.http://mx45.cadcam.etech.engg.nagoya-u.ac.jp/ ●Additional ReadingManual of Engineering Drawing, Fourth Edition: Technical Product Specification andDocumentation to British and International Standard (ISBN-10: 0080966527 ISBN-13: 978-0080966526)ISO Handbook Technical drawings Volume 2, Part 2: Mechanical engineeringdrawings (ISBN 92-67-10371-7) ●Grade AssessmentEvaluated by CAD projects and CAM practices ●Notes ●Contacting FacultyDuring Drawing practices, Classes, CAM practices.

Class Format LectureCourse Name Automotive Engineering Automotive EngineeringStarts 1 2 Spring Semester 2 Spring SemesterElective/Compulsory Compulsory CompulsoryLecturer Hiroyuki KOUSAKA

Associate ProfessorNorikazu SUZUKIAssociate Professor

Design Practice I(1.0credits)(設計製図１)________________________________________________________________________


______________________________________________________________________________●Course PurposeThe purpose of this course is to experience the fundamental and important principlesrelating auto mobile, and to observe and understand the expected physical phenomenafrom them through various themes from mechanical, electrical, aerospace, andinformation engineering areas. ●Prerequisite SubjectsBasic Specialized Courses and Specialized Courses of mechanical engineering, electricalengineering, aerospace engineering, and information engineering. ●Course TopicsAbout 10 themes are provided, and the experiment for each theme is performed for thegroup with 5-6 members. After the each experiment, student analyses obtainedexperimental data, and writes a report. ●TextbookA text book for the experiment is provided and announced at/before the first day of theexperiment ●Additional Reading ●Grade AssessmentStudents must submit reports for all themes. Students must obtain a score of 60 orhigher to pass the course.Grades: S:100-90, A:89-80, B:79-70, C:69-60, F:59-0. ●Notes ●Contacting Faculty

Class Format ExperimentCourse Name Automotive Engineering Automotive EngineeringStarts 1 3 Autumn Semester 3 Autumn SemesterElective/Compulsory Compulsory CompulsoryLecturer Tsuyoshi INOUE

ProfessorTakeshi KATOAssociate Professor

Automobile Engineering Laboratory I(2.0credits)(自動車工学実験１)__________________________________________________________________________________________________________________


______________________________________________________________________________●Course PurposeThis course provides a clear and thorough introduction to the principles and practicesunderpinning modern analytical chemistry. Through the course, students will develop anunderstanding of the fundamentals of analytical chemistry and various applications ofcutting-edge techniques. ●Prerequisite SubjectsFundamentals of Chemistry ●Course Topics1. Accuracy and precision2. Separation and concentration3. Chemical analysis4. Atomic and molecular spectroscopy5. Surface and structural analysis ●Textbook ●Additional Reading ●Grade AssessmentStudents must obtain a score of 60 or higher to pass the course.Grades :S:100-90, A:89-80, B:79-70, C:69-60, F:59-0. ●Notes ●Contacting Faculty

Class Format LectureCourse Name Automotive Engineering Automotive EngineeringStarts 1 3 Autumn Semester 3 Autumn SemesterElective/Compulsory Elective ElectiveLecturer Hiroaki MATSUMIYA

Associate Professor

Analytical Chemistry(2.0credits)(分析化学)____________________________________________________________________________


______________________________________________________________________________●Course PurposeThis presents the role of car traffic in urban structure, the environment and qualityof life,as well as its impact on these. ●Prerequisite SubjectsNone ●Course Topics1. Impacts of Motorization on Land Use and the Environment (Hayashi) - Interactionbetween motorization and urban growth - Transport systems and quality of life2. MotorTownscape (Katagi) - An outline of car design - An outline of highway design -Formation of 'strip'3. Car Traffic and Other Modes in Urban Transport Systems (Kato) -The role of public transport systems and car traffic - Environmental assessment oftransport activity - Low carbon transport systems4. Risk Management of UrbanEnvironment (Mori) - Concept of risk - Exposure analysis and threshold - Fatality rateand residual life - Air pollution, noise, and vibration ●Textbook ●Additional ReadingR. Venturi, D.S. Brown, and S. Izenour, Learning from Las Vegas, (The MIT Press, 1977)ISBN-13: 978-0262720069W. Rothengatter, Y. Hayashi, W. Shade(Eds.): Transport Moving toClimate Intelligence New Chances for Controlling Climate Impacts of Transport afterthe Economic Crisis, (Springer, 2011) ISBN: 978-1-4419-7642-0. ●Grade AssessmentGrades will be based on the reports. Students must obtain a score of 60 or higher topass the course. ●Notes ●Contacting FacultyStudents are encouraged to ask questions during classes or via email.Appointments canbe made upon request. The email addresses of the lecturers are as follows: HAYASHI:[email protected]. KATAGI: [email protected] MORI:[email protected] KATO: [email protected]

Class Format LectureCourse Name Automotive Engineering Automotive EngineeringStarts 1 3 Autumn Semester 3 Autumn SemesterElective/Compulsory Elective ElectiveLecturer Yasuhiro MORI

ProfessorYoshitsugu HayashiProfessor

Atsushi KATAGIProfessor

Hirokazu KATOAssociate Professor

Urban Environment and Transportation System(2.0credits)(都市と交通)____________________________________________________________________________________________________________________________


______________________________________________________________________________●Course PurposePower electronics is one of the key technologies for eco-generation, eco-friendly　cars, shinkansen (bullet train), linear motor car, robot actuation, etc. This lectureis aimed at understanding of basics of power electronics for automotive engineers.Uponcompletion of the course,students will understand the basics of power electroniccircuits,such as converters, choppers and inverters and the basics of DC/AC motorcontrol. ●Prerequisite SubjectsMathematics 1 with ExercisesMathematics 2 with Exercises Electrical CircuitsEngineeringElectronic Circuits ●Course Topics1. AD-DC Converters2. DC-DC Choppers3. DC motor control4. DC-AC Inverters 5. AC motorcontrolClass periods (90 min.)will be divided into a lecture (first half)and exercisesin circuit design and construction(second half). ●TextbookHandouts compiled by the lecturers ●Additional ReadingPower Electronics, Daniel W. Hart, McGraw Hill Higher Education, 2010Electromechanicalsystems, electric machines, and applied mechatronics, Sergey E. Lyshevski. CRC Press,2000Introduction to power electronics, Eiichi Ohno, Clarendon Press, 1988PowerElectronics -- Breadboard Models and Theory (in Japanese), Takeshi Furuhashi, CoronaPublishing Co., Ltd., 2008, ●Grade AssessmentExercises:40%, Final examination:60%Grades: S:100-90,A:89-80,B:79-70,C:69-60,F:below 60 ●Notes ●Contacting FacultyOffice hours will be announced in class.

Class Format LectureCourse Name Automotive Engineering Automotive EngineeringStarts 1 3 Autumn Semester 3 Autumn SemesterElective/Compulsory Elective CompulsoryLecturer Takeshi FURUHASHI

ProfessorShinji Doki Professor

Power Electronics(2.0credits)(パワーエレクトロニクス)____________________________________________________________________________________


______________________________________________________________________________●Course PurposeThe purpose of this course is to acquire the basics of numerical analysis throughmultibody dynamics simulation and finite element methods. Through this course, studentswill develop an understanding of (1) the principles of multibody dynamics and finiteelement methods and their solution methods using computers, and (2)computationalgorithms of multibody dynamics simulation and the finite element method (studentswill also solve some simple practical examples). ●Prerequisite SubjectsCalculus, Linear Algebra, Physics, Computer Software, Kinematics, Mechanical Vibration,Mechanics of Materials, Solid Mechanics ●Course Topics1. Equation of motion of bodies2. Constraint Equations and Augmented form of system equations3. Numerical integration methods4. Program with Fortran/Matlab5. Equilibrium equation6. Virtual work principle and weighted residual form7. Discretization8. Solution methods of linear system of equations9. Fortran programming and simulation examples ●TextbookPlanar Multibody Dynamics: Formulation, Programming, and Applications, Parviz Nikravesh Introduction to Approximate Solution Techniques, Numerical Modeling, andFinite Element Methods, Marcel Dekker Inc ●Additional Reading ●Grade AssessmentGrades will be based on attendance, assignments, quizzes, and an examination. ●Notes ●Contacting Faculty

Class Format LectureCourse Name Automotive Engineering Automotive EngineeringStarts 1 3 Autumn Semester 3 Autumn SemesterElective/Compulsory Elective ElectiveLecturer Toshiro MATSUMOTO

ProfessorTsuyoshi INOUEProfessor

Numerical Analysis(2.0credits)(数値解析法)__________________________________________________________________________


______________________________________________________________________________●Course PurposeIn this course, students will learn fundamental theory on conductive, convective andradiative heat transfers, and their applications such as heat exchangers. Courseobjectives include(1) developing an understanding of steady and unsteady conductive heat transfer byFourier's law,(2)explaining the principle of forced and natural convection,(3)explaining the phenomena of surface radiative heat transfer by understanding thefundamentals of radiation laws, and(4)learning the design of heat exchangers. ●Prerequisite Subjects ●Course Topics1. Introduction to mechanisms of heat transfer2. Conductive heat transfer: Fourier's law and equation of thermal conduction/ Steadyconductive heat transfer/Unsteady conductive heat transfer3. Convective heat transfer: Forced convective heat transfer/Natural convective heattransfer/Overall heat transfer4. Thermal radiation: Fundamental laws for thermal radiation/Emissivity and anglefactor/Enclosure theory5. Heat exchanger: Parallel flow/Counter flow/NTU ●TextbookPrinted handouts will be provided. ●Additional ReadingHeat Transfer (Schaum's Outline Series), McGraw-Hill College ●Grade AssessmentGrades will be based on class participation, assignments and a final examination. 30% for attendance30% for assignments40% for final examination ●Notes ●Contacting FacultyStudents can ask questions at any time during classes.Questoins during off-class hours can be asked at the lecturer's room (EngineeringBuilding No.3 North Wing, Room 223 (3125)) or via e-mail: [email protected]

Class Format LectureCourse Name Automotive Engineering Automotive EngineeringStarts 1 3 Autumn Semester 3 Autumn SemesterElective/Compulsory Elective ElectiveLecturer Fujio TAKIMOTO


Heat Transfer Engineering(2.0credits)(伝熱工学)______________________________________________________________________________________


______________________________________________________________________________●Course PurposeRobot manipulators are widely used in the real production line of automotives.In orderto make better production, we have to know 'what is making' as well as 'what ismade'.This course introduces fundamental knowledge for designing a robot manipulator:link mechanics, drive mechanics and integration of them.Finally, students will be ableto design a four-degree of freedom robot-manipulator from the desirablecharacteristics, specification. ●Prerequisite SubjectsDesign Practice 1 ●Course TopicsThe classes are composed of lecture and practice.The contents are as follows.(1) Basicconcept of robot manipulator(2) Design of link mechanics(3) Principles of drivemechanics: - Gear wheel - Chain and belt drives - Bearing(4) Design of robotmanipulator from the specification(5) Drawing practice: Design and drawing of a four-degree of freedom robot-manipulator ●TextbookDistributed in each class ●Additional Reading ●Grade AssessmentGrades will be based on reports of design and drawing. Students must obtain a score of60 or higher to pass the course. Grades: S:100-90, A: 89-80, B: 79-70, C: 69-60, F:59-0. ●Notes ●Contacting FacultyStudents can contact with lecturers via email: INAGAKI: [email protected]: [email protected]

Class Format LectureCourse Name Automotive Engineering Automotive EngineeringStarts 1 3 Autumn Semester 3 Autumn SemesterElective/Compulsory Compulsory CompulsoryLecturer Koichi MORI Associate

ProfessorShinkichi INAGAKILecturer

Design Practice II(1.0credits)(設計製図２)__________________________________________________________________________


______________________________________________________________________________●Course PurposeThe purpose of this course is to review how previously reviewed automotive engineeringtheory is sapplied practically, and cover state of research and production at variouscompanies. ●Prerequisite Subjects ●Course TopicsPlant visits to automotive companies in Chubu, Kansai and Kanto districts ●Textbook ●Additional Reading ●Grade Assessment ●Notes ●Contacting Faculty

Class Format PracticeCourse Name Automotive Engineering Automotive EngineeringStarts 1 2 Autumn Semester 2 Autumn SemesterElective/Compulsory Elective ElectiveLecturer Faculty of Automotive

Engineering

Tours in Industrial Plants A(0.5credits)(工場見学Ａ)______________________________________________________________________________________________


______________________________________________________________________________●Course PurposeThe purpose of this course is to review how previously reviewed automotive engineeringtheory is applied practically, and cover state of research and production at variouscompanies. ●Prerequisite Subjects ●Course TopicsPlant visits to automotive companies in Chubu, Kansai and Kanto districts ●Textbook ●Additional Reading ●Grade Assessment ●Notes ●Contacting Faculty

Class Format PracticeCourse Name Automotive Engineering Automotive EngineeringStarts 1 3 Spring Semester 3 Spring SemesterElective/Compulsory Elective ElectiveLecturer Faculty of Automotive

Engineering

Tours in Industrial Plants B(0.5credits)(工場見学Ｂ)______________________________________________________________________________________________


______________________________________________________________________________●Course PurposeThe purpose of the course is to gain further knowledge on automotive engineeringthrough training in industrial plants. ●Prerequisite Subjects ●Course TopicsPractical experiences in automotive engineering at industrial plants ●Textbook ●Additional Reading ●Grade Assessment ●Notes ●Contacting Faculty

Class Format PracticeCourse Name Automotive Engineering Automotive EngineeringStarts 1 3 Spring Semester 3 Spring SemesterElective/Compulsory Elective ElectiveLecturer Faculty of Automotive

Engineering

Training in Industrial Plants(1.0credits)(工場実習)______________________________________________________________________________________________


______________________________________________________________________________●Course PurposeThe purpose of this course is to experience the fundamental and important principlesrelating auto mobile, and to observe and understand the expected physical phenomenafrom them through various themes from mechanical, electrical, aerospace, andinformation engineering areas. ●Prerequisite SubjectsBasic Specialized Courses and Specialized Courses of mechanical engineering, electricalengineering, aerospace engineering, and information engineering. ●Course TopicsAbout 10 themes are provided, and the experiment for each theme is performed for thegroup with 5-6 members. After the each experiment, student analyses obtainedexperimental data, and writes a report. ●TextbookA text book for the experiment is provided and announced at/before the first day of theexperiment ●Additional Reading ●Grade AssessmentStudents must submit reports for all themes. Students must obtain a score of 60 orhigher to pass the course.Grades: S:100-90, A:89-80, B:79-70, C:69-60, F:59-0. ●Notes ●Contacting Faculty

Class Format ExperimentCourse Name Automotive Engineering Automotive EngineeringStarts 1 3 Spring Semester 3 Spring SemesterElective/Compulsory Compulsory CompulsoryLecturer Tsuyoshi INOUE

ProfessorTakeshi KATOAssociate Professor

Automobile Engineering Laboratory II(2.0credits)(自動車工学実験２)____________________________________________________________________________________________________________________


______________________________________________________________________________●Course PurposeThis course discusses current topics in chemical systems used in the automobile, suchas fuels and combustion, energy management, fuel cell system, and exhaust gas handling. ●Prerequisite SubjectsAutomotive Chemical Systems1 ●Course Topics1. Automotive fuel processing 2. Chemistry of fuel cell system 3. Chemical heat pumpfor heat management4. Exhaust catalytic converter ●TextbookPrinted materials will be prepared and distributed in class. ●Additional ReadingN/A ●Grade AssessmentGrades will be based on reports and an examination. Students must obtain a score of 60or higher to pass the course. Grades: S: 100-90, A: 89-80, B: 79-70, C: 69-60, F: 59-0. ●Notes ●Contacting FacultyStudents can ask questions during and at the end of each lecture,or via email.T.TAGAWA:[email protected],Y.KOJIMA:[email protected] or N.KOBAYASHI:[email protected]

Class Format LectureCourse Name Automotive Engineering Automotive EngineeringStarts 1 3 Spring Semester 3 Spring SemesterElective/Compulsory Elective ElectiveLecturer Tomohiko TAGAWA

ProfessorYoshihiro KOJIMAAssociate Professor

Noriyuki KOBAYASHIAssociate Professor

Automobile Chemical Systems II(2.0credits)(自動車化学システム２)____________________________________________________________________________________________________________


______________________________________________________________________________●Course PurposeThe purpose of the course is to understand the chemical structures and properties oforganic materials, as well as its automotive applications. Automotive. ●Prerequisite Subjects ●Course Topics(1) Chemistry of organic materials(2) Structure and function of organic materials(3)Component materials: polymer(4) Coating materials(5) Additives in fuels, engine oil,and lubricant systems(6) Nanomaterials and advanced technology related to organicmaterials (7) Biomaterials ●Textbook ●Additional Reading ●Grade AssessmentCredits will be awarded to those students who score 60 or more.Grades are as follows:S:100 - 90, A:89 - 80, B:79 - 70, C:69 - 60, F:59 - 0. ●Notes ●Contacting Faculty

Class Format LectureCourse Name Automotive Engineering Automotive EngineeringStarts 1 3 Spring Semester 3 Spring SemesterElective/Compulsory Elective ElectiveLecturer associated faculty

Organic Materials(2.0credits)(有機材料)______________________________________________________________________


______________________________________________________________________________●Course PurposeThe purpose of this course is to introduce the fundamentals of materials fabricationand reaction on surface or interface . Upon completion of the course, students will(1)understand catalysis,(2)understand nanoparticles, 3. understand surface andinterface for catalytic reactions ●Prerequisite Subjects ●Course Topics1. What is catalysis?2. How to fabricate nanoparticles3. What are surface andinterface?4. Measurement techniques5. Some topics related to automotive catalysis ●Textbook ●Additional Reading ●Grade Assessment ●Notes ●Contacting Faculty

Class Format LectureCourse Name Automotive Engineering Automotive EngineeringStarts 1 3 Spring Semester 3 Spring SemesterElective/Compulsory Elective ElectiveLecturer Shinya YAGI Professor

Environment and Recycling(2.0credits)(環境とリサイクル)______________________________________________________________________________________________


______________________________________________________________________________●Course PurposeThe purpose of this course is to review state of the art Intelligent Transport Systems(ITS), and the fundamentals of traffic flow analysis. ●Prerequisite Subjects ●Course Topics1. Role of Information and Communication Technology in Transportation (Morikawa) -Application of ITS for Sustainable Urban Transport System - ITS for data collection,processing and traffic management2. Traffic Flow Characteristics and Traffic Control(Nakamura)- Fundamental characteristics of traffic flow- Traffic signal control3. ITSfor Traffic Safety (Yamamoto) - Accident analysis - ITS for supporting active andpassive safety4. ITS for the Environment (Miwa)- Traffic and emissions- Emergingtechnology for reducing emissions. ●TextbookThe following books are recommended as references:Khisty, C.J: TransportationEngineering : An Introduction, Prentice Hall. Taylor, M.A.Young, W. and Bonsall,P.W.:Understanding Traffic Systems: Data, Analysis and Presentation, Avebury. ●Additional Reading ●Grade Assessment ●Notes ●Contacting Faculty

Class Format LectureCourse Name Automotive Engineering Automotive EngineeringStarts 1 3 Spring Semester 3 Spring SemesterElective/Compulsory Elective ElectiveLecturer Hideki NAKAMURA

ProfessorTakayuki MORIKAWAProfessor

Toshiyuki YAMAMOTOProfessor

Tomio MIWA AssociateProfessor

Intelligent Transportation Systems(2.0credits)(情報通信技術と自動車交通)________________________________________________________________________________________________________________________


______________________________________________________________________________●Course PurposeThe purpose of this course is to study electronic devices, equipment, and systems forautomotive engineering. ●Prerequisite SubjectsPhysics:Electrical Circuits Engineering:Electronic Circuits ●Course Topics1 Electric power systems (battery, alternator, power semiconductor)2 Powertrain control(engine management, hybrid control)3 Chassis control (brake control, steering control,stability control)4 Body electronics5 Safety equipment (airbag, pre-crash safety)6Infotainment and telematics (car navigation system)7 Automotive embedded systems(automotive microprocessor, automotive software platform, in-vehicle network) ●Textbook ●Additional Reading ●Grade AssessmentGrades will be based on a written examination or report . Students must obtain a scoreof 60 or higher to pass the course. Grades: S: 100-90, A: 89-80, B: 79-70, C: 69-60, F:59-0. ●Notes ●Contacting FacultyStudents can contact their lecturer via email.

Class Format LectureCourse Name Automotive Engineering Automotive EngineeringStarts 1 3 Spring Semester 3 Spring SemesterElective/Compulsory Elective ElectiveLecturer Blaine Levedahl


Electronic Devices in Automobiles(2.0credits)(自動車の電子機器)______________________________________________________________________________________________________________


______________________________________________________________________________●Course PurposeIn this course, students will learn about the combustion engine and advanced propulsionsystems. Course objectives include (1)developing an understanding of the design andmechanics of the combustion engine (Otto-cycle engine and Diesel engine) and,(2)reviewing revolutionary vehicles with new propulsion system (electric vehicles,hybrids and fuel cell vehicles). ●Prerequisite Subjects ●Course Topics1. Otto-cycle engine2. Diesel engine3. Supercharging4. Fundamental of vehicle propulsion5. Combustion engines6. Electric vehicles7. Hybrid electric vehicles8. Design principle of series and parallel hybrids9. Fuel cell vehicles ●TextbookPrinted handouts will be provided. ●Additional ReadingThe Internal Combustion Engine in Theory and Practice: Vol. 1, The MIT PressHybrid, Electric and Fuel-Cell Vehicles, Delmar Cengage LearningFuel Cell Systems Explained 2nd Edition, SAE InternationalInternal Combustion Engine Handbook, SAE International ●Grade AssessmentGrades will be based on class participation and reports. 30% for attendance30% for interim report40% for final report ●Notes ●Contacting FacultyStudents can ask questions at any time during classes.Questoins during off-class hours can be asked at the lecturer's room (EngineeringBuilding No.3 North Wing, Room 223 (3125)) or via e-mail: [email protected]

Class Format LectureCourse Name Automotive Engineering Automotive EngineeringStarts 1 3 Spring Semester 3 Spring SemesterElective/Compulsory Elective ElectiveLecturer Fujio TAKIMOTO


Vehicle Engines and New Propulsion Systems(2.0credits)(自動車エンジンと新動力システム)______________________________________________________________________________________________________________________________________________


______________________________________________________________________________●Course PurposeIn this course, students will review fundamental vehicle dynamics and control. Thecourse also covers progressed vehicle control such as steering control, adaptive cruisecontrol, and electric stability control. ●Prerequisite Subjects ●Course Topics1. Acceleration performance2. Road loads3. Type dynamics4. Steady state cornering5.Braking performance6. Basic theory of vehicle control7. Steering control for automatedlane keeping8. Longitudinal control9. Electric stability control ●TextbookFundamentals of Vehicle Dynamics (SAE International) ●Additional Reading ●Grade Assessment ●Notes ●Contacting Faculty

Class Format LectureCourse Name Automotive Engineering Automotive EngineeringStarts 1 3 Spring Semester 3 Spring SemesterElective/Compulsory Elective ElectiveLecturer Blaine Levedahl


Vehicle Dynamics and Control(2.0credits)(自動車ダイナミクスと制御)____________________________________________________________________________________________________________


______________________________________________________________________________●Course PurposeLecturers from Japanese leading industries provide the knowledge of the current statusof production engineering in Japan. Developing the ability of understanding Englishlectures is expected. ●Prerequisite Subjectsnone ●Course Topics1. Production engineering in automobile industry 2. Production systems for automotiveparts 3. Production engineering in aerospace industry 4. Production systems foraerospace products Foreign students have first priorities. The maximum number ofstudents is limited to 30. In some lectures, group discussions and assignments may bedone. Sufficient level of English language capability, TOEIC score of 600 or itsequivalent as a minimum, is required. ●TextbookLecture notes are provided. ●Additional ReadingNone ●Grade AssessmentReports ●Notes ●Contacting Faculty





ElectiveLecturer part-time faculty

Introduction to Production Engineering(2.0credits)(生産工学概論)____________________________________________________________________________________________________________________


______________________________________________________________________________●Course PurposeSafety is a key issue in vehicle development. This course examines both active safety(prevention of accidents) and passive safety (injury mitigation). Through the course,students will develop an understanding of vehicle safety development and engineeringbased on mechanical and human factors. ●Prerequisite Subjects ●Course Topics1. Accident analysis2. Accident avoidance3. Biomechanics4. Vehicle crashworthiness5.Occupant protection6. Pedestrian protection7. Mathematical simulation ●TextbookAutomotive Safety Handbook (SAE International) ●Additional Reading ●Grade Assessment ●Notes ●Contacting Faculty

Class Format LectureCourse Name Automotive Engineering Automotive EngineeringStarts 1 4 Autumn Semester 4 Autumn SemesterElective/Compulsory Elective ElectiveLecturer Kouji MIZUNO

ProfessorTatsuya SUZUKIProfessor

Vehicle Safety(2.0credits)(自動車安全工学)______________________________________________________________________


______________________________________________________________________________●Course PurposeThe purpose of this course is to learn how to design cars in the development process . ●Prerequisite SubjectsDesign practice 1Design practice 2Design practice 3Creative Design and Practice onAutomobiles 1Creative Design and Practice on Automobiles 2 ●Course Topics1 Market analysis2 Vehicle concepts and packages3 Requirements and conflicting goals4Body design5 Chassis design6 Strength and reliability experiment7 Verification throughdriving test ●Textbook ●Additional Reading ●Grade AssessmentGrades will be based on a written examination or report. Students must obtain a scoreof 60 or higher to pass the course. Grades: S:100-90, A: 89-80, B: 79-70, C: 69-60, F:59-0. ●Notes ●Contacting FacultyStudents can contact their lecturer via email.

Class Format LectureCourse Name Automotive Engineering Automotive EngineeringStarts 1 4 Autumn Semester 4 Autumn SemesterElective/Compulsory Elective ElectiveLecturer part-time faculty part-time faculty

Vehicle Design(2.0credits)(車両計画と車体設計)__________________________________________________________________________



Class Format Experiment andExercise

Course Name Automotive EngineeringStarts 1 4 Autumn SemesterElective/Compulsory CompulsoryLecturer associated faculty

Graduation Research A(2.5credits)(卒業研究Ａ)________________________________________________________________________________



Class Format Experiment andExercise

Course Name Automotive EngineeringStarts 1 4 Spring SemesterElective/Compulsory CompulsoryLecturer associated faculty

Graduation Research B(2.5credits)(卒業研究Ｂ)________________________________________________________________________________

Course Type Related Specialized Courses

______________________________________________________________________________●Course PurposeThe purpose of this course is to develop scientific and technical Japanese languageknowledge in various skill areas such as technical vocabulary, lecture listeningcomprehension, article reading, report writing, and oral presentation. ●Prerequisite Subjects ●Course Topics1. Introduction and background survey2. Japanese language skill check on the computer3.Practical listening comprehension training in students’major4. Reading of Japanesearticles in students’major5. Writing a Japanese report for a laboratory assignment6.Oral presentation on a research project ●TextbookTBA ●Additional Reading ●Grade Assessment ●Notes ●Contacting Faculty

Class Format LectureCourse Name Automotive Engineering Automotive EngineeringStarts 1 3 Spring Semester 3 Spring SemesterElective/Compulsory Elective ElectiveLecturer Tsutomu NOMIZU

Professor

Scientific and Technical Japanese(2.0credits)(科学技術日本語)____________________________________________________________________________________________________________


______________________________________________________________________________●Course PurposeThe purpose of this course is to (1)develop speaking skills necessary for dailycommunication amid a Japanese working environment, (2)improve accuracy and learnexpressions suitable for various business situations, including honorifics and humbleJapanese expressions, (3)practice writing and reading Japanese notes, businessletters, email messages and so on, and (4)learn Japanese business protocols. ●Prerequisite Subjects ●Course Topics1.Orientation, self-introduction,2.Chapter 1 「説明」,3.business protocols, 4.Chapter2「意見」, 5.making and answering business phone calls, 6.Chapter 3「賛成」,7.honorifics and humble language, expressions used in business, 8.Chapter 4「反対」,9.Japanese notes, business letters and e-mail messages, 10.Chapter 5「結論」, 11Chapter 6「説得」, 12. Chapter 7「クレーム」, 13. Chapter 8「プレゼンテーション」, 14.Review ●Textbook『新装版　商談のための日本語』米田隆介・藤井和子・重野美枝・池田広子　共著スリーエーネットワーク ●Additional Reading ●Grade AssessmentGrades: S: 100%-90%, A: 89%-80%, B: 79%-70%, C: 69%-60%, F: 59%-0% ●Notes ●Contacting Faculty

Class Format LectureCourse Name Automotive Engineering Automotive EngineeringStarts 1 4 Autumn Semester 4 Autumn SemesterElective/Compulsory Elective ElectiveLecturer Reiko　FURUYA

Associate Professor

Business Japanese(2.0credits)(ビジネス日本語)____________________________________________________________________________


______________________________________________________________________________●Course PurposeThis course introduces the history, current state and the future prospects of R&D(research and development) in various sectors related to the engineering field inJapan. This class consists of omnibus-style lectures, all provided in English. ●Prerequisite SubjectsNothing ●Course Topics1. Introduction to Embedded Computing Systems and Related Technology 1.1Fundamentals and Trends 1.2 Low Energy Design 1.3 Automotive Applications2.Introduction to Disaster Management and Related Technology 2.1 Introduction toDisaster Management 2.2 Disaster Management Technology 2.3 Disaster ManagementRelated Mini class project3. Introduction to Mass Production and Related Technology3.1 Introduction to Mass Production 3.2 Technology for Mass Production 3.3 CurrentProblems and Future of Mass Production ●TextbookThe lecture materials will be distributed in each lecture. ●Additional Reading1.“Programming Embedded Systems”, Second Edition, Michael Barr and Anthony Massa,O`Reilly Media 20062.“Designing Embedded Processors: A Low Power Perspective”,Henkel, Jeorg and Parameswaran, Sri, Springer Published 2007.3.“Disaster Management inJapan”, Cabinet Office, Government of Japan (Available Online)http://www.bousai.go.jp/panf/saigaipanf.pdfhttp://www.bousai.go.jp/1info/pdf/saigaipanf.pdf4.“Disasters by Design: A Reassessment of Natural Hazards in the United States(Natural Hazards and Disasters: Reducing Loss and Building Sustainability in aHazardous World: A Series)”, Dennis Mileti, A Joseph Henry Press.5.“Toyota ProductionSystem: Beyond Large-Scale Production”, Taiichi Ohno, Productivity Press 1988 ●Grade AssessmentAttendance: 40%, One report per lecture: 30%, Final presentation: 30% ●Notes ●Contacting FacultyLecturer: Gang ZengEmail: [email protected]: 052-789-5420





ElectiveLecturer LELEITO Emanuel

LecturerGang Zeng Lecturer

Outline of Engineering III(2.0credits)(工学概論第３)____________________________________________________________________________________________


______________________________________________________________________________●Course PurposeThis course discusses the fundamentals of, and current topics in each field of theadvanced electrical, electronic and information engineering, with an overview of thestatus of their researches and developments in Japan. Topics to be introduced are thoserelated with energy, material and device, information and communication, multimedia andso on. To familiarize students with the subject matter, trips to the relatedmanufactuaring companies are planned ●Prerequisite Subjects ●Course Topics1.Electrical Engineering 2.Electronic Engineering 3.Information and CommunicationEngineering ●Textbook ●Additional Reading ●Grade Assessmentreports ●Notes ●Contacting Faculty





ElectiveLecturer associated faculty

View of Advanced Electrical/ Electronic and Information Engineering(2.0credits)(電気電子情報先端工学概論)__________________________________________________________________________________________________________________________________________________________________________________________


______________________________________________________________________________●Course PurposeTo learn the contributions of Civil Engineering and Architecture to develop theenvironment that forms our society ●Prerequisite Subjects ●Course TopicsField trips to construction sites and lectures about construction system andarchitecture. ●Textbook ●Additional Reading ●Grade AssessmentReports::::: ●Notes ●Contacting FacultyContact to Professor TanikawaEmail [email protected]






Introduction to Civil Engineering and Architecture(2.0credits)(社会環境工学概論)________________________________________________________________________________________________________________________________________________


______________________________________________________________________________●Course PurposeThe purpose of this course is to provide a broad overview of trends in chemical andbiological industries in Japan. ●Prerequisite SubjectsNot specified. ●Course TopicsThis course introduces cutting-edge R&D topics and anticipated future trends, and looksat chemical and biological production in Japan. It illustrates how these topics relateto society in general, how they play a role in energy and environmental issues, and howthey affect the international community. The course will invite researchers with ampleexperience working abroad to give inspiring lectures in English. ●TextbookNot specified. ●Additional ReadingN/A ●Grade AssessmentGrades will be based on written reports and effort/attitude in class. Students mustobtain a score of 60/100 or higher to pass the course.Credits will be awarded to thosestudents who score 60 or more.Grades are as follows: S:100 - 90, A:89 - 80, B:79 - 70,C:69 - 60, F:59 - 0. ●Notes ●Contacting FacultyStudents can ask questions during lecture hours.



Starts 1 4 Spring Semester 4 Spring Semester 4 Spring SemesterElective/Compulsory Elective Elective ElectiveLecturer associated faculty

Introduction to Chemical and Biological Industries(2.0credits)(化学・生物産業概論)__________________________________________________________________________________________________________________________________________________


______________________________________________________________________________●Course PurposeFundamentals in applied physics, material science, and quantum energy are introduced.Magnetism and superconductivity, and recent topics of quantum computers are discussed.Materials sciences to resolve many problems in design of physical properties, inrefining and formation processing of materials are discussed. Recent developments inmaterials science are introduced. Introduction to nuclear fusion and quantum energyutilization are also discussed. ●Prerequisite Subjects ●Course Topics1. Introduction to magnetism 2. Introduction to quantum computers 3. Introduction tosuperconductivity 4. Introduction to laser materials processing I 5. Introduction tolaser materials processing II 6. Introduction to nuclear fusion I 7. Introduction tonuclear fusion II 8. Introduction to nuclear fusion III 9. Introduction to nuclearfusion IV10. Fundamentals of ceramics and applications I11. Fundamentals of ceramicsand applications II12. Fundamentals of ceramics and applications III13. Fundamentals ofmetals and applications I14. Fundamentals of metals and applications II ●TextbookLecture materials will be given during every lecture. ●Additional ReadingShackelford, James F., Introduction to Materials Science for Engineers, Prentice Hall,Upper Saddle River, New Jersey, USA ●Grade AssessmentEvaluation will be based on written reports to be submitted at each lecture. ●Notes ●Contacting Faculty






Introduction to Applied Physics/ Materials and Energy Engineering(2.0credits)(物理・材料・エネルギー工学概論)____________________________________________________________________________________________________________________________________________________________________________________________

Automotive Electrical Syllabuses

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