This course examines problems in the philosophy of film as well as literature studied in relation to their making of myths. The readings and films that are discussed in this course draw upon classic myths of the western world. Emphasis is placed on meaning and technique as the basis of creative value in both media.

This course introduces the core theory of modern financial economics and financial management, with a focus on capital markets and investments. Topics include functions of capital markets and financial intermediaries, asset valuation, fixed-income securities, common stocks, capital budgeting, diversification and portfolio selection, equilibrium pricing of risky assets, the theory of efficient markets, and an introduction to derivatives and options.

Continuation of Finance Theory I, concentrating on corporate financial management. Topics: Capital investment decisions, security issues, dividend policy, optimal capital structure, hedging and risk management, futures markets and real options analysis. The objective of this course is to learn the financial tools needed to make good business decisions. The course presents the basic insights of corporate finance theory, but emphasizes the application of theory to real business decisions. Each session involves class discussion, some centered on lectures and others around business cases.

Studies basic concepts of financial and managerial accounting. Viewpoint is that of the users of accounting information (especially managers) rather than the preparer (the accountant).

Introduction to investments and corporate finance. Topics include: project and company valuation, risk and return in capital markets, the pricing of stocks and bonds, corporate financing and dividend policy, the cost of capital, and financial options. Subject provides a broad overview of both theory and practice. Restricted to Management of Technology students. Financial Management studies corporate finance and capital markets, emphasizing the financial aspects of managerial decisions. It touches on all areas of finance, including the valuation of real and financial assets, risk management and financial derivatives, the trade-off between risk and expected return, and corporate financing and dividend policy. The course draws heavily on empirical research to help guide managerial decisions.

This book is for those whose financial management focus is on small businesses. For you, we adapt the traditional financial management themes emphasized in corporate financial management courses to meet the needs of small businesses.

Many financial managers of small businesses come from farms or agribusinesses. Others are interested in working for or starting businesses in the food or retail sectors. In most cases, these businesses aren’t organized as C-corporations impacting things like taxes, depreciation, and legal requirements around compiling and reporting financial data. They are rarely publicly traded which creates unique constraints to raising debt and equity capital and calculating required risk-adjusted returns.

These financial managers are interested in solving specific problems they face in family or small businesses. They want to know how to apply the tools they are learning—coordinated financial statement analysis, present value analysis, management of cash flow, measuring their opportunity costs, etc.—to the problems they face at home. As we started to work on the actual problems faced by these managers, it quickly became clear that corporate finance tools don’t exactly fit the small businesses they come from. Further, in attempting to tackle the problems they bring, we learned that finding and/or constructing the data needed for financial management is another skill set often overlooked and in need of development. In the end, after investing a lot of time, we found that—without adaptation—corporate finance theory as traditionally taught doesn’t meet the knowledge needs and application skills of financial managers of small businesses. We wrote this book to be a catalyst that enables students and managers of small businesses to learn the tools and skill sets that will help them make sound financial management decisions.

An intensive introduction to the preparation and interpretation of financial information for investors (external users) and managers (internal users) and to the use of financial instruments to support system and project creation. Adopts a decision-maker perspective on accounting and finance. This is an intensive introduction to the preparation and interpretation of financial information for investors (external users) and managers (internal users) and to the use of financial instruments to support system and project creation. The course adopts a decision-maker perspective on accounting and finance with the goal of helping students develop a framework for understanding financial, managerial, and tax reports.

This course introduces finite element methods for the analysis of solid, structural, fluid, field, and heat transfer problems. Steady-state, transient, and dynamic conditions are considered. Finite element methods and solution procedures for linear and nonlinear analyses are presented using largely physical arguments. The homework and a term project (for graduate students) involve use of the general purpose finite element analysis program ADINA. Applications include finite element analyses, modeling of problems, and interpretation of numerical results.

This course presents finite element theory and methods for general linear and nonlinear analyses. Reliable and effective finite element procedures are discussed with their applications to the solution of general problems in solid, structural, and fluid mechanics, heat and mass transfer, and fluid-structure interactions. The governing continuum mechanics equations, conservation laws, virtual work, and variational principles are used to establish effective finite element discretizations and the stability, accuracy, and convergence are discussed. The homework and the student-selected term project using the general-purpose finite element analysis program ADINA are important parts of the course.

Course Contents 1. Turning performance (three dimensional equations of motion, coordinate systems, Euler angles, transformation matrices)
2. Airfield performance (take-off and landing)
3. Unsteady climb and descent (including minimum time to climb problem)
4. Cruise flight and transport performance
5. Equations of motion with a wind gradient present
6. Equations of motion applied to various phases of space flight
7. Launch, Vertical flight, delta-V budget, burn out height, staging
8. Gravity perturbations to satellite orbits, J2 effect for low earth orbit satellites, J2,2 effect for Geostationary Earth Orbit sattelites leading to contribution in V budget
9. Patched conics approach for interplanetary flight, gravity assist effect / options for change of excess velocity (2d, 3d), Launch, in orbit insertion.
Study Goals 1. Integrate fundamental disciplines (aero, power and propulsion, mechanics..) to describe the kinematics of aerospace vehicles satisfying real world constraints
2. Derive equations of motion for elementary flight and mission phases (climb, turn, cruise, take-off, launch, orbit)
3. Derive analytical expressions for optimal performance (steepest turn, Breguet Range, patched conics, J2, maneuvers )
4. Determine pros/cons of multi-stage launchers.
5. Assess sun lighting conditions on a satellite.
6. Determine the influence of wind (gradient) on aircraft motion and performance.
7. Develop the theory to describe an interplanetary trajectory as a succession of two-body problems, and apply this concept to real missions.

Students are introduced to the important concept of density with a focus is on the more easily understood densities of solids. Students use different methods to determine the densities of solid objects, including water displacement to determine volumes of irregularly-shaped objects. By comparing densities of various solids to the density of water, and by considering the behavior of different solids when placed in water, students conclude that ordinarily, objects with densities greater than water sink, while those with densities less than water float. Then they explore the principle of buoyancy, and through further experimentation arrive at Archimedes' principle that a floating object displaces a mass of water equal to its own mass. Students may be surprised to discover that a floating object displaces more water than a sinking object of the same volume.

Students are presented with an engineering challenge that asks them to develop a material and model that can be used to test the properties of aortic valves without using real specimens. Developing material that is similar to human heart valves makes testing easier for biomedical engineers because they can test new devices or ideas on the model valve instead of real heart valves, which can be difficult to obtain for research. To meet the challenge, students are presented with a variety of background information, are asked to research the topic to learn more specific information pertaining to the challenge, and design and build a (prototype) product. After students test their products and make modifications as needed, they convey background and product information in the form of portfolios and presentations to the potential buyer.

In this class, food serves as both the subject and the object of historical analysis. As a subject, food has been transformed over the last 100 years, largely as a result of ever more elaborate scientific and technological innovations. From a need to preserve surplus foods for leaner times grew an elaborate array of techniques -- drying, freezing, canning, salting, etc -- that changed not only what people ate, but how far they could/had to travel, the space in which they lived, their relations with neighbors and relatives, and most of all, their place in the economic order of things. The role of capitalism in supporting and extending food preservation and development was fundamental. As an object, food offers us a way into cultural, political, economic, and techno-scientific history. Long ignored by historians of science and technology, food offers a rich source for exploring, e.g., the creation and maintenance of mass-production techniques, industrial farming initiatives, the politics of consumption, vertical integration of business firms, globalization, changing race and gender identities, labor movements, and so forth. How is food different in these contexts, from other sorts of industrial goods? What does the trip from farm to table tell us about American culture and history?

In the first of two lessons of this curricular unit, students are introduced to the concept of friction as a force that impedes motion when two surfaces are in contact. Student teams use spring scales to drag objects, such as a ceramic coffee cup, along a table top or the floor, measuring the frictional force that exists between the moving object and the surface it slides on. By modifying the bottom surface of the object, students find out what kinds of surfaces generate more or less friction. They also discover that both static and kinetic friction are involved when an object initially at rest is caused to slide across a surface. In the second lesson of the unit, students design and conduct experiments to determine the effects of weight and surface area on friction. They discover that weight affects normal friction (the friction that results from surface roughness), but for very smooth surfaces, the friction due to molecular attraction is affected by contact area.

What do collapsed buildings, infected hospital patients, and crashed airplanes have in common? If you know the causes of these events and conditions, they can all be prevented.

In this course, you will learn how to use the TU Delft mind-set to investigate the causes of such events so you can prevent them in the future.

When, for instance, hundreds of hospital patients worldwide got infected after having gall bladder treatments, forensic engineering helped reveal how the design and use of the medical instruments could cause such widespread infections. As a result, changes were made to the instrument design and the procedural protocols in hospitals. Learning from failure in this case benefitted patient health and safety across the world.

After taking this course you will have an understanding of failures and the investigation processes used to find their causes. You will learn how to apply lessons gained from investigating previous failures into new designs and procedures.

Inspired by the work of the architect Antoni Gaudi, this research workshop will explore three-dimensional problems in the static equilibrium of structural systems. Through an interdisciplinary collaboration between computer science and architecture, we will develop design tools for determining the form of three-dimensional structural systems under a variety of loads. The goal of the workshop is to develop real-time design and analysis tools which will be useful to architects and engineers in the form-finding of efficient three-dimensional structural systems.

How and why do we participate in public life? How do we get drawn into community and political affairs? In this course we examine the associations and networks that connect us to one another and structure our social and political interactions. Readings are drawn from a growing body of research suggesting that the social networks, community norms, and associational activities represented by the concepts of civil society and social capital can have important effects on the functioning of democracy, stability and change in political regimes, the capacity of states to carry out their objectives, and international politics.

Major narrative texts from diverse Western cultures, beginning with Homer and concluding with at least one film. Emphasis on literary and cultural issues: on the artistic significance of the chosen texts and on their identity as anthropological artifacts whose conventions and assumptions are rooted in particular times, places, and technologies. Syllabus varies, but always includes a sampling of popular culture (folk tales, ballads) as well as some landmark narratives such as the Iliad or the Odyssey, Don Quixote, Anna Karenina, Ulysses, and a classic film. This class will investigate the ways in which the formal aspects of Western storytelling in various media have shaped both fantasies and perceptions, making certain understandings of experience possible through the selection, arrangement, and processing of narrative material. Surveying the field chronologically across the major narrative genres and sub-genres from Homeric epic through the novel and across media to include live performance, film, and video games, we will be examining the ways in which new ideologies and psychological insights become available through the development of various narrative techniques and new technologies. Emphasis will be placed on the generic conventions of story-telling as well as on literary and cultural issues, the role of media and modes of transmission, the artistic significance of the chosen texts and their identity as anthropological artifacts whose conventions and assumptions are rooted in particular times, places, and technologies. Authors will include: Homer, Sophocles, Herodotus, Christian evangelists, Marie de France, Cervantes, La Clos, Poe, Lang, Cocteau, Disney-Pixar, and Maxis-Electronic Arts, with theoretical readings in Propp, Bakhtin, Girard, Freud, and Marx.

This practicum focuses on applying the principles of sustainability to improve the quality of life and activity along the Foshan downtown riverfront. The City has recently engaged in several planning efforts that, with the help of consultants and experts, will help to identify strategies to revitalize the City's center and establish a new downtown. This practicum will compliment these efforts by focusing on planning and design options in and around the Pearl River, a now underutilized waterway that runs through the City's new downtown.