List of Credits for Graduation

Academic Year 2018, Four-Year Program, Undergraduate Program of Engineering technology, Department of Molecular Science and Engineering

YearSemesterRequired
Elective
Course IDCourse NameCreditsHoursLevelNote
1 1 ”µ 1101006 All-Out Defense Education 0.0 1 1 / 2 ”@
1 1 ”µ 1400027 English in Practice 2.0 3 1 / 2 ”@
1 1 ”µ 1400100 Campus Custodial Services 0.0 1 ”@ ”@
1 1 ”µ 1400102 First step to achieving the goals of universities and Engineering Ethics 1.0 2 ”@ ”@
1 1 ”µ 1404003 Chinese 2.0 2 1 / 2 ”@
1 1 ”µ 1419984 Core Curriculum of Liberal Arts Education”GNomocracy 2.0 2 ”@ ”@
1 1 ”µ 1419989 Core Curriculum of Liberal Arts Education”GAesthetics and Arts 2.0 2 ”@ ”@
1 1 ”¶ 1401032 Calculus 3.0 3 1 / 2 ”@
1 1 ”¶ 1401041 Physics 3.0 3 1 / 2 ”@
1 1 ”¶ 3201001 Chemistry 3.0 3 1 / 2 ”@
1 1 ”¶ 3201003 Chemistry Lab. 1.0 3 1 / 2 ”@
1 1 ”¹ 3201005 Industrial Safety and Hygiene 2.0 2 ”@ ”@
1 1 ”¹ 3501014 Technical Japanese 2.0 2 ”@ ”@
1 1 ”¹ 3501017 Engineering Graphics(I) 1.0 3 ”@ ”@
1 2 ”µ 1101006 All-Out Defense Education 0.0 1 2 / 2 ”@
1 2 ”µ 1400027 English in Practice 2.0 3 2 / 2 ”@
1 2 ”µ 1400099 Service Learning 0.0 1 ”@ ”@
1 2 ”µ 1404003 Chinese 2.0 2 2 / 2 ”@
1 2 ”µ 1419990 Core Curriculum of Liberal Arts Education”G History and Literatural 2.0 2 ”@ ”@
1 2 ”¶ 1401032 Calculus 3.0 3 2 / 2 ”@
1 2 ”¶ 1401041 Physics 3.0 3 2 / 2 ”@
1 2 ”¶ 3201001 Chemistry 3.0 3 2 / 2 ”@
1 2 ”¶ 3201003 Chemistry Lab. 1.0 3 2 / 2 ”@
1 2 ”¹ 3501016 Fundamental biochemistry 2.0 2 ”@ ”@
1 2 ”¹ 3501018 Engineering Graphics(II) 1.0 3 ”@ ”@
1 2 ”¹ 3513015 Engineering Statistics 2.0 2 ”@ ”@
1 2 ”¹ 3514015 Specialty Chemicals 2.0 2 ”@ ”@
1 2 ”¹ 3521008 Computer Science and Application 2.0 2 ”@ ”@
2 1 ”µ 1419987 Core Curriculum of Liberal Arts Education”GSociety and Philosophy 2.0 2 ”@ ”@
2 1 ”µ 1419991 Elective Curriculum of Liberal Arts Education 2.0 2 ”@ ”@
2 1 ”µ 14E0001 Diversified English 2.0 3 1 / 2 ”@
2 1 ”¶ 3502015 Engineering Mathematics 2.0 2 1 / 2 ”@
2 1 ”¶ 3502016 Organic Chemistry 3.0 3 1 / 2 ”@
2 1 ”¶ 3512007 Engineering Mechanics 3.0 3 ”@ ”@
2 1 ”¶ 3534061 Textile materials and principles of textile Technology 2.0 2 ”@ ”@
2 1 ”¹ 3502018 Applied Microbiology 2.0 2 ”@ ”@
2 1 ”¹ 3503007 Surface Analysis for Materials 2.0 2 ”@ ”@
2 1 ”¹ 3512017 Biochemistry 3.0 3 ”@ ”@
2 1 ”¹ 3534042 N 2.0 2 ”@ ”@
2 1 ”¹ 3534056 Internship 2.0 40 ”@ ”@
2 2 ”µ 1419992 Elective Curriculum of Liberal Arts Education 2.0 2 ”@ ”@
2 2 ”µ 14E0001 Diversified English 2.0 3 2 / 2 ”@
2 2 ”¶ 3502015 Engineering Mathematics 2.0 2 2 / 2 ”@
2 2 ”¶ 3502016 Organic Chemistry 3.0 3 2 / 2 ”@
2 2 ”¶ 3522005 Analytical Chemistry 2.0 2 ”@ ”@
2 2 ”¶ 3534064 Principles of Polymer Chemistry 3.0 3 ”@ ”@
2 2 ”¹ 3503013 Biochemistry experiments 2.0 4 ”@ ”°
2 2 ”¹ 3512018 Spectroscopt and Molecular Structure 2.0 2 ”@ ”@
2 2 ”¹ 3512019 Organic Chemistry Lab. 2.0 4 ”@ ”°
2 2 ”¹ 3512020 Analytical Chemistry Lab. 2.0 4 ”@ ”°
2 2 ”¹ 3532027 Yarn Formation Technology 2.0 2 ”@ ”@
2 2 ”¹ 3532033 Automatic Control 2.0 2 ”@ ”@
2 2 ”¹ 3534068 Fluid Mechanics 2.0 2 ”@ ”@
3 1 ”µ 1419988 Core Curriculum of Liberal Arts Education”GInnovation and Entrepreneurship 2.0 2 ”@ ”@
3 1 ”¶ 3534058 Material Science and Engineering 2.0 2 ”@ ”@
3 1 ”¶ 3534063 Instrumental Analysis 3.0 3 ”@ ”@
3 1 ”¶ 3534065 Physical Chemistry 3.0 3 1 / 2 ”@
3 1 ”¶ 3534077 Fiber Physics and Chemistry 3.0 3 ”@ ”@
3 1 ”¹ 3504005 Composite Materials 2.0 2 ”@ ”@
3 1 ”¹ 3513043 Organic Synthesis 2.0 2 ”@ ”@
3 1 ”¹ 3513045 Surface Chemistry 3.0 3 ”@ ”@
3 1 ”¹ 3513051 Protein Chemistry 3.0 3 ”@ ”@
3 1 ”¹ 3523007 Textile Dyeing 2.0 2 ”@ ”@
3 1 ”¹ 3533029 Fabric Formation Technology 2.0 2 ”@ ”@
3 1 ”¹ 3533034 Strength of Materials 2.0 2 ”@ ”@
3 1 ”¹ 3534035 Introduction to Organic Optoelectronic Materials 2.0 2 ”@ ”@
3 1 ”¹ 3534047 Polymer Chemistry Lab. 2.0 4 ”@ ”°
3 1 ”¹ 3534048 Practice of Yarn and Fabric Formation 2.0 4 ”@ ”°
3 1 ”¹ 3534070 Molecular Biology 3.0 3 ”@ ”@
3 2 ”µ 1400029 Internship 2.0 40 ”@ ”@
3 2 ”µ 1419994 Elective Curriculum of Liberal Arts Education 2.0 2 ”@ ”@
3 2 ”¶ 3502014 Principles of Polymer Physics 2.0 2 ”@ ”@
3 2 ”¶ 3503003 Special Projects 2.0 6 1 / 2 ”@
3 2 ”¶ 3534065 Physical Chemistry 3.0 3 2 / 2 ”@
3 2 ”¹ 3501019 Polymer Processing 2.0 2 ”@ ”@
3 2 ”¹ 3503015 Proteomic engineering 2.0 2 ”@ ”@
3 2 ”¹ 3513048 Applications of Molecular cell Biology 3.0 3 ”@ ”@
3 2 ”¹ 3514019 Medicinal Chemistry 2.0 2 ”@ ”@
3 2 ”¹ 3514024 Modern Inorganic Chemistry (I) 2.0 2 ”@ ”@
3 2 ”¹ 3522017 Analytical Technology of Polymer Materials 2.0 2 ”@ ”@
3 2 ”¹ 3522019 Optoelectronic Polymer 2.0 2 ”@ ”@
3 2 ”¹ 3523005 Textile Finishing 2.0 2 ”@ ”@
3 2 ”¹ 3523034 Polymer Rheology 2.0 2 ”@ ”@
3 2 ”¹ 3533036 Dying,Printing and Finishing practice 2.0 4 ”@ ”°
3 2 ”¹ 3534049 Polymer Physics Lab. 2.0 4 ”@ ”°
3 2 ”¹ 3534050 Colour Chemistry 3.0 3 ”@ ”@
3 2 ”¹ 3534054 Semester Practical Training 9.0 40 ”@ #
3 2 ”¹ 3534059 Special Topics of Materials Science and Engineering 2.0 2 ”@ ”@
3 2 ”¹ 3534081 Chemistry for People`s Livelihood 2.0 2 ”@ ”@
4 1 ”µ 1419995 Elective Curriculum of Liberal Arts Education 2.0 2 ”@ ”@
4 1 ”¶ 3503003 Special Projects 2.0 6 2 / 2 ”@
4 1 ”¶ 3504015 Student Seminars 1.0 2 ”@ ”@
4 1 ”ø 1004001 Physical Education 1.0 2 ”@ ”@
4 1 ”¹ 3503014 Genomics engineering 2.0 2 ”@ ”@
4 1 ”¹ 3513049 Inorganic Chemistry 3.0 3 ”@ ”@
4 1 ”¹ 3514025 Modern Inorganic Chemistry (II) 2.0 2 ”@ ”@
4 1 ”¹ 3524015 Polymer Synthesis 2.0 2 ”@ ”@
4 1 ”¹ 3532029 Practice on Fabric Coating and Finishing 2.0 4 ”@ ”°
4 1 ”¹ 3532031 Introduction to Textile Machine Design 2.0 2 ”@ ”@
4 1 ”¹ 3533037 Introduction to Technical Textiles 2.0 2 ”@ ”@
4 1 ”¹ 3534037 Industrial Economics 2.0 2 ”@ ”@
4 1 ”¹ 3534055 Academic year Practical Training 9.0 40 1 / 2 #
4 1 ”¹ 3534071 International Colloquy on Specific Topics a 1.0 1 ”@ ”@
4 1 ”¹ 3534072 International Colloquy on Specific Topics b 2.0 2 ”@ ”@
4 1 ”¹ 3534073 International Colloquy on Specific Topics c 3.0 3 ”@ ”@
4 1 ”¹ 3534079 Materials Physics and Chemistry Lab. 2.0 4 ”@ ”°
4 1 ”¹ 3534080 Innovative technology for textile industries 3.0 3 ”@ ”@
4 1 ”¹ 3534083 Innovative technology in textile industries 3.0 3 ”@ ”@
4 1 ”¹ 3534085 Computer Color Matching and Pigment 3.0 3 ”@ ”@
4 1 ”¹ 3534086 Computer-assisted Molecular Design 3.0 3 ”@ ”@
4 2 ”ø 1004002 Physical Education 1.0 2 ”@ ”@
4 2 ”¹ 3504010 Introduction to Liquid Crystal Materials 2.0 2 ”@ ”@
4 2 ”¹ 3504014 Nanomaterials 2.0 2 ”@ ”@
4 2 ”¹ 3514018 Molecular Modelling 3.0 3 ”@ ”@
4 2 ”¹ 3514021 Biomaterials 2.0 2 ”@ ”@
4 2 ”¹ 3514023 Innovative biomedical industries in the new millennium 1.0 2 ”@ ”@
4 2 ”¹ 3534036 Special Topics of Polymer Chemistry 2.0 2 ”@ ”@
4 2 ”¹ 3534039 Fiber Composites Practice 2.0 4 ”@ ”°
4 2 ”¹ 3534043 Textile Management 2.0 2 ”@ ”@
4 2 ”¹ 3534055 Academic year Practical Training 9.0 40 2 / 2 #
4 2 ”¹ 3534074 International Colloquy on Specific Topics d 1.0 1 ”@ ”@
4 2 ”¹ 3534075 International Colloquy on Specific Topics e 2.0 2 ”@ ”@
4 2 ”¹ 3534076 International Colloquy on Specific Topics f 3.0 3 ”@ ”@
4 2 ”¹ 3534088 Materials Analysis by X-ray 3.0 3 ”@ ”@

Note :
1. Minimum credits for graduation: 131.
2. Jointly required credits 33, major required credits 63, and major elective credits 35.
3. Maximum 15 credits for taking elective courses outside the College of Engineering. (including last mile).
4. Freshman year, regardless of department. At sophomore year student will be diverted to the Department of Chemical engineering and biotechnology. Department of material and mineral resources engineering, Department of civil engineering, and Molecular science and engineering.
5. ӤEngineering graphicsӯ, ӤComputer science and applicationӯ, and ӤFundamental biochemistryӯ for Molecular Science and Engineering, the first year required courses. Attend "physical" creditable "Molecular physics," attend "chemical", " Chemistry Lab." creditable "Molecular chemistry", " Molecular Chemistry Lab.," respectively.
6. Attend semester (year) school internship professional elective courses student exemption revision joint summer school internship required courses, but must still meet the minimum graduation total school scores.
7. Student has to take at least one required core course from three main primary profession courses; [Organic materials], [polymeric materials], and [high added-value textile materials]. Attendance standards each degree program, please read the page Molecular Science and Engineering. (more detailed information: http://www.mse.ntut.edu.tw/bin/home.php)
8. All undergraduate students are required t reach the minimum level of English proficiency or above as one of the necessary requirements for graduation. For more details on the relevant standards of English proficiency, please consult with the website of the Office of Academic Affairs, National Taipei University of Technology.
9. Student must attend 18 credits in ӤElective Curriculum of Liberal Arts Education:Natureӯ; and must obtain credits of ӤIntroductory Biologyӯ in "natural science and logical reasoning" dimension.
10. 5 core curriculums of Liberal Arts Education curriculums”GCulture, History, Nomocracy, Society & Philosophy, and Innovation & Entrepreneurship.
11. Teaching of Technical Fundamentals - Fundamental Experiment Classes; Molecular Chemistry Lab. (semester 1 & 2), Biochemistry experiments, Organic Chemistry Lab., Analytical Chemistry Lab., Polymer Physics Lab., Practice of Yarn and Fabric Formation, Polymer Physics Lab., Dying, Printing and Finishing practice, Materials Physics and Chemistry Lab., Materials Physics and Chemistry Lab., and Fiber Composites Practice.
12. These 11 courses in total (M), equal to the minimum number of courses(N), are the required courses of this program. Students should pass these courses for graduation. Student has to take at least three optional core courses for laboratory practice (marked by "”°").
13. Students from foreign countries, Hong Kong, and Macao, whose graduating schools are comparable in level and nature to Taiwan”¦s senior high schools and whose graduating year is equivalent to the 2nd grade of Taiwan”¦s senior high schools, are considered as having a level of education adequate for registering for the entrance examination for the various 4-year bachelor programs in Taiwan”¦s universities. Suchlike undergraduate students, when admitted to National Taipei University of Technology”¦s Bachelor programs, are required to earn extra 12 credit units from the elective courses defined in their respective departments”¦ curriculum tables.
14. This curriculum applies to new students of Academic Year 2018.