Ecological Modeling Seminar

This is a course intended for students with basic knowledge of ecology, statistics, differential equations, and computer programming techniques and had some experience on modeling. We will discuss the application of mathematical modeling and computer programming techniques to investigate ecological questions. We will also discuss statistical analyses for identifying ecological patterns. Students will select a subject base on his/her own interest and present the progress of the chosen topic. The class is mainly in the form of discussion. Students are required to do oral presentation on a topic of ecological modeling and participate discussion. College of Science Main Campus Takeshi Miki 25 Tuesday 7,8 Ocean7152 2 Half Graduate Institute of Oceanography, Marine Biology & Fisheries Division http://www.oc.ntu.edu.tw/?lang=en

Marine Ecology

This course offers a balanced, stimulating survey of marine ecology, introducing the key processes and systems from which the marine environment is formed, and the issues and challenges which surround its future conservation.

In general, we will meet 2 hours (Mon 13:20 – 15:10) every week, but occasionally we may watch documentary on the 3rd hours.

For the week 8 and 10, instead of meeting in the classroom, we will spend half day in Mangrove ecocenter and full day in NMMST to discuss the course materials and to explore the environment.

Students are expected to develop a broad understanding on various issues of marine ecology, be able to generate an in-depth review on a selected topic and give a presentation. College of Science Main Campus Chih-Lin Wei 15 Monday 6,7,8 Ocean5002 3 Half Graduate Institute of Oceanography, Marine Biology & Fisheries Division,
Introductory Course of Marine Science http://www.oc.ntu.edu.tw/?lang=en

Biological Oceanography

This is an introductory course intended for undergraduate and graduate students with knowledge of basic ecology. The focus will be on OCEANOGRAPHY, with investigation on interactive biological, chemical, and physical processes in the ocean. The purposes are to give an overview of biological ocean science (a wide rather than deep view) and to provide basic information and training for graduate research. The discussion will range from physical effects on the biology to biological effects on biogeochemical cycling; the spatial scale will range from individual organisms (e.g. viscosity and turbulences on plankton feeding and nutrient uptake) to ecosystem (e.g. remote sensing and circulation modeling); the organism will range from virus to whales. Students will gain knowledge of biological oceanography College of Science Main Campus Chih-Hao Hsieh 25 Tuesday 2,3,4 Ocean5051 3 Half Graduate Institute of Oceanography, Marine Biology & Fisheries Division,

Earth System Science,

Sustainable Development Resource,

Introductory Course of Marine Science
http://www.oc.ntu.edu.tw/?lang=en

Jazz

This course examines the history, social significance, and musical style of jazz. It focuses particularly on two of the central periods in the development of jazz: the Swing era (ca. 1930-45), which saw the rise of the “big bands” and the emergence of jazz as a great national popular music of America; and the Bebop era (ca. 1945-60), during which jazz became self-consciously difficult in the manner of so-called art music. We will immerse ourselves in intensive description of the music in order to understand better the extraordinary fusion of spontaneous creativity and careful intellectual structuring that characterizes jazz. We will also give in-depth consideration to socio-cultural dimensions of the music such as racial identity, American identity, and the impact of economic and technological factors. – to gain an appreciation of the richness and variety of jazz through close study of a representative selection of pieces
– to think critically about basic aspects of musical creation and production such as composition, arrangement, improvisation, and the function(s) of notation
– to develop an awareness of the complex interrelationships between the arts and cultural/ideological attitudes concerning society, property, etc. V14 College of Liberal Arts Main Campus Ren-Yan Chen 50 Tuesday 7,8,9 Music3018 3 Half Graduate Institute of Musicology http://www.gim.ntu.edu.tw/default_eng.aspx

Particle Physics (Ⅰ)

Learning the subject of elementary particle physics Get familiar with the standard model of particle physics, Feynman diagrams, Feynman rules, calculations of elementary particle processes. College of Science Main Campus Cheng-Wei Chiang 30 Tuesday 3,4,5 Phys8033 3 Half Graduate Institute of Physics http://www.phys.ntu.edu.tw/webeng/APHome.aspx

Fundamentals and Application of Synchrotron Radiation and Neutron Scattering

Syllabus

1. Establishing Background: solid state physics and advanced materials (I)

2. Establishing Background: solid state physics and advanced materials (II)

3. Introduction (TLS/TPS)

4. X-ray Photoemission Spectroscopy (XPS) (soft x-ray)

5. Angular resolved photoemission (APES) (soft x-ray)

6. X-ray absorption spectroscopy (XAS) (soft x-ray)

7. X-ray magnetic circular dichroism (XMCD) (soft x-ray)

8. X-ray microscopy: PEEM/SR-STM/SPEM/STXM (soft x-ray) (I)

9. X-ray microscopy: PEEM/SR-STM/SPEM/STXM (soft x-ray) (II)

10. X-ray diffraction/scattering (hard x-ray)

11. Synchrotron for Biophysics (hard/soft x-ray)

12. Introduction to Neutron production and selected techniques

13. Neutron diffraction/scattering

14. Special Topic: XMCD-PEEM/SPEM

15. NSRRC Lab Tour

16. Presentations / Final Exam

Syllabus

1. Establishing Background: solid state physics and advanced materials (I)

2. Establishing Background: solid state physics and advanced materials (II)

3. Introduction (TLS/TPS)

4. X-ray Photoemission Spectroscopy (XPS) (soft x-ray)

5. Angular resolved photoemission (APES) (soft x-ray)

6. X-ray absorption spectroscopy (XAS) (soft x-ray)

7. X-ray magnetic circular dichroism (XMCD) (soft x-ray)

8. X-ray microscopy: PEEM/SR-STM/SPEM/STXM (soft x-ray) (I)

9. X-ray microscopy: PEEM/SR-STM/SPEM/STXM (soft x-ray) (II)

10. X-ray diffraction/scattering (hard x-ray)

11. Synchrotron for Biophysics (hard/soft x-ray)

12. Introduction to Neutron production and selected techniques

13. Neutron diffraction/scattering

14. Special Topic: XMCD-PEEM/SPEM

15. NSRRC Lab Tour

16. Presentations / Final Exam

College of Science Main Campus Minn Tsong Lin 30 Thursday 7,8 Phys8121 2 Half Graduate Institute of Physics,
Graduate Institute of Applied Physics http://www.phys.ntu.edu.tw/webeng/APHome.aspx

Quantum Mechanics (1)(tigp)

Purpose of the course:

The course is intended to give the students a basic training in quantum mechanics. In the first semester we learned the necessary mathematical tools, developed the subject from the postulates of quantum mechanics, and addressed the indispensable preliminaries. In this coming second semester of the course, the emphasis of the course will be on the second half of the following textbook.

Textbook:`Principles of Quantum Mechanics`, Second Edition, by R. Shankar, (Plenum)
Subjects to be covered:
a) Symmetry and their consequences
b) Rotational invariance and angular momentum
c) The hydrogen atom
d) Spin
e) Addition of angular momenta
f) Variational and WKB methods
g) Perturbation theories
h) Scattering theory

References: `Quantum Physics`, Second Edition, by Stephen Gasiorowicz, (Wiley)
College of Science Main Campus Ching Teh Li 20 Tuesday 3,4,5 Phys8067 3 Full Graduate Institute of Physics,
Tigp-Molecular Science and Technology http://www.phys.ntu.edu.tw/webeng/APHome.aspx

Advanced Physical Chemistry(Ⅰ) (chem. Thermodynamics)

This course covers the principles and methods of equilibrium statistical mechanics for applications to chemical physics problems. The lectures will be divided into three parts: a short review of thermodynamics principles, the concepts of ensemble theory and the applications to gas, liquid, solution and solid systems. The final part will introduce the phase transition and the theory of Brownian motion.

Planned topics: laws of thermodynamics, thermal equilibrium and temperature, ensemble theory, entropy, non-interacting systems (gas and solid), chemical equilibrium, imperfect gases, classical liquids, ionic and non-ionic solutions, Ising models. Langevin equation and Brownian motion. This course aims to introduce basic concepts of equilibrium statistical mechanics for physical chemistry in the graduate level. College of Science Main Campus *Majors-only (including minor and double major students). Yuan-Chung Cheng 20 Tuesday 6,7,8 Chem7031 3 Half Division of Chemistry http://www.ch.ntu.edu.tw/english/en_index.htm

Advanced Inorganic Chemistry(Ⅰ)

Outline

I. Symmetry & Bonding

Molecular Geometry, Symmetry Elements & Operations, Point Groups,

Representation & Character Tables, Applications to Spectroscopies

Symmetry-adapted Linear Combinations

Linear Combination of Atomic Orbitals

Molecular Orbital Theory for ABn Type Molecules

Tanabe and Sugano Diagrams, Walsh Diagrams



II. Transition Metal Chemistry

Electronic Configuration, Spectroscopy, Magnetism

Coordination Chemistry

Bonding, Structures, Reactivity & Reaction Mechanisms



III. Main Group Chemistry

Ionic & Covalent Bond, Chemical Forces, H-Bonding & Acid-Base

Chemistry

Structures & Reactivity

Supramolecular Chemistry & Organometallic Chemistry

A Brief Introduction on Modern Development


Bonding, Structure, Reactivity, Mechanism, and Applications of Inorganic Compounds College of Science Main Campus *Majors-only (including minor and double major students).
*Restrict to graduate students. Kong Kien Voon 50 Wednesday 6,7,8 Chem7029 3 Half Division of Chemistry http://www.ch.ntu.edu.tw/english/en_index.htm

Orality, Text, Brain

This graduate course has no written tests and no fixed textbook. Much of the written work will be collective in nature.

The literary material for this course is ancient, medieval, and modern oral poems, including Beowulf, English and Scottish ballads, Middle and Modern English sayings, contemporary US spoken word poets (poetry slam poets), and translations from the worlds greatest oral poems and laws. Each student will construct his or her own virtual (oral) book of poetry.

The methodology of this course is partly performative: each class meeting will consist of an operational discussion of orality–learning and jamming oral poemsas well as a theoretical discussion of orality. In other words, we will read theories of orality and ethnopoetics for the sake of putting them into practice and testing them as performance, and we will perform as a way to understand the ahistorical processes of orality, so often misrecognized in modernity. Guest speakers from other faculties will be invited to educate us on the brain and memory; the relationship of music, voice, and text; and performance. Individually and as a group we shall build a repertoire, a living corpus of intangible culture. We will also watch and describe performances of oral poetry from around the world, including the South African ibongi, the Argentine payador, and American poetry slams.

The theoretical foundations of this course include cognitive approaches to literature, oral theory, and ethnopoetics. Subthemes include memory and participatory knowledge.
1. Learn about and master pre-modern texts, especially English-language ballads, Middle English poetry.
2. Learn oral theory, and see how orality is part of even hyper-literate societies.
3. Develop a more sophisticated understanding of history and historical change.
4. Apply oral theory and performance theory not only to texts but to the study process.

5. Write publishable, collaborative essays or prepare collaborative conference presentations.
College of Liberal Arts Main Campus Michael Mcglynn 12 Monday 6,7,8 FL7270 3 Half Graduate Institute of Foreign Languages and Literatures http://www.forex.ntu.edu.tw/main.php?lang=en

Sophocles’ Antigone

Sophocles Antigone is one of the most widely studied, taught, performed and adapted ancient Greek tragedy in the modern world. Unfortunately, most of the approaches have paid more attention to modern theoretical constructs of literature, rather than to the social context within which this play was originally produced. In this course we will try to recover the meaning of the play for its original audience. To do so we will examine fundamental issues of classical Athenian society (like the representation of Thebes as a negative model of Athens; funeral, religious and wedding rituals; and the political ideology of Athenian Democracy). In the final weeks of the course, equipped with an understanding of the original meaning of the play, we will examine some of the most influential interpretations of the play with a view to discover to what extent they illuminate its meaning and to what extent they distort it in an attempt to appropriate its prestige.

Syllabus

Week 1 Introduction: Antigone and Antigones, Context, Meaning and Literature

Week2 Anti-Athens: Thebes in Athenian Myth-making

Week3 Prologue (Antigone 1-99)

Week4 Women in Athens, Ismene and Antigone as types of Athenian Women

Week5 Chorus Entrance and First Episode (Antigone 100-331)

Week6 Funeral Rites, Women and Athenian State Interference

Week7 First Choral Song and Second Episode (Antigone 332-581)

Week8 Religion, Prophecy and Omens in Athenian Society

Week9 Second Choral Song and Third Episode (Antigone 582-780)

Week10 Citizen Duties in Athenian Democracy

Week11 Third Choral Song and Fourth Episode (Antigone 781-943)

Week12 Wedding Rites in Athens

Week13 Fourth Choral Song and Fifth Episode (Antigone 944-1114)

Week14Public Advice and Collective Decisions in Athenian Democracy

Week15Fifth Choral Song and Finale (Antigone 1115-1352)

Week16 Hegel, Dialectics and Antigone

Week17 Lacan, Psychoanalysis and Antigone

Week18 Feminist Criticism and Antigone

It is expected that the course will help students

build a methodology for understanding and interpreting other cultures;

enable them realize the importance of social context in literary criticism;

foster a critical attitude towards theories and interpretations. College of Liberal Arts Main Campus *Restrict to graduate students.
Vasileios Vagios 12 Thursday 2,3,4 FL7140 3 Half Graduate Institute of Foreign Languages and Literatures
http://www.forex.ntu.edu.tw/main.php?lang=en

Theories of Meaning

This course is the fourth (in fact, the last) of the series of tutorial based courses on fundamental topics in the philosophy of language and logic. As I have remarked in the introduction to the series, I have chosen as the starting point the course ‘Theories of Reference’, and then two courses The Concept of Existence and Theories of Truth follow. I would then expect that the interested student may have already had a nodding acquaintance with the philosophical concepts of reference, truth, and existence, and related issues. In particular, the student should have some brief ideas about what a theory of reference/truth/existence is intended to do and may have some background knowledge of the main theses of and disputes between different philosophers/schools with regard to the philosophical issues related to these concepts. The main concern of this course is to pay further attention to the most fundamental issue: Granted that a sentence is true, what does the sentence mean when it is stated, or asserted? From a philosophical point of view, to answer a question of this kind, we need to have clear picture of what the concept of meaning is. It is the main burden of this course to give a brief introduction to a variety of conceptions of meaning and to various different approaches to a theory of meaning. College of Liberal Arts Shuiyuan Campus Chin Mu Yang 15 Thursday 7,8,9 Phl7711 3 Half Graduate Institute of Philosophy http://www.philo.ntu.edu.tw/en/ann/