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EN 550.445: Modeling and Analysis of Securities and Financial Markets II
4.00 Credits
Johns Hopkins University
Prerequisite: EN.550.444 Advances in corporate finance, investment practice and the capital markets have been driven by the development of a mathematically rigorous theory for financial instruments and the markets in which they trade. This course builds on the concepts, techniques, instruments and markets introduced in 550.444. In addition to new topics in credit enhancement and structured securities, the focus is expanded to include applications in portfolio theory and risk management, and covers some numerical and computational approaches.
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EN 550.445 - Modeling and Analysis of Securities and Financial Markets II
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EN 550.447: Advanced Portfolio and Investment Theory
4.00 Credits
Johns Hopkins University
Prerequisites: 550.442 or 550.444 This course focuses on modern quantitative portfolio theory, models, and analysis. Topics include intertemporal approaches to modeling and optimizing asset selection and asset allocation; benchmarks (indexes), performance assessment (including, Sharpe, Treynor and Jenson ratios) and performance attribution; immunization theorems; alpha-beta separation in management, performance measurement and attribution; Replicating Benchmark Index (RBI) strategies using cash securities / derivatives; Liability-Driven Investment (LDI); and the taxonomy and techniques of strategies for traditional management: Passive, Quasi-Passive (Indexing) Semi-Active (Immunization & Dedicated) Active (Scenario, Relative Value, Total Return and Optimization). In addition, risk management and hedging techniques are also addressed.
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EN 550.447 - Advanced Portfolio and Investment Theory
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EN 550.453: Mathematical Game Theory
4.00 Credits
Johns Hopkins University
Mathematical analysis of cooperative and noncooperative games. Theory and solution methods for matrix game (two players, zero-sum payoffs, finite strategy sets), games with a continuum of strategies, N-player games, games in rule-defined form. The roles of information and memory. Selected applications to economic, recreational, and military situations. Prereq: Multivariable Calculus, probability, linear algebra.
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EN 550.453 - Mathematical Game Theory
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EN 550.472: Graph Theory
4.00 Credits
Johns Hopkins University
Prereq: Linear Algebra Study of systems of “vertices” with some pairs joined by “edges.” Theory of adjacency, connectivity, traversability, feedback, and other concepts underlying properties important in engineering and the sciences. Topics include paths, cycles, and trees; routing problems associated with Euler and Hamilton; design of graphs realizing specified incidence conditions and other constraints. Attention directed toward problem solving, algorithms, and applications. One or more topics taken up in greater depth.
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EN 550.472 - Graph Theory
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EN 560.141: Perspective on the Evolution of Structures
3.00 Credits
Johns Hopkins University
Why do buildings and bridges look the way they do today? Students will be provided the tools to answer this question for themselves through a study of the history of the design of buildings and bridges throughout the world from both engineering and architectural/aesthetic perspectives. Only simple mathematics is required (no calculus). Students will participate in individual and group critique of structures from engineering, architectural, and social points of view.
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EN 560.141 - Perspective on the Evolution of Structures
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EN 560.202: Dynamics
4.00 Credits
Johns Hopkins University
Basic principles of classical mechanics applied to the motion of particles, system of particles and rigid bodies. Kinematics: analytical description of motion; rectilinear and curvilinear motions of particles; rigid body motion. Kinetics: force, mass, and acceleration; energy and momentum principles. Introduction to vibration. Includes laboratory experience. Prerequisites: 560.201 or 530.201, 110.109 Calculus II, 171.101 General Physics I.
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EN 560.202 - Dynamics
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EN 560.206: Solid Mechanics & Theory of Structures
4.00 Credits
Johns Hopkins University
Application of the principles of structural analysis for statically determinant and indeterminant structures (trusses, cables, beams, arches, and frameworks). Calculation of internal forces and stresses in members and structures. Determination of deflections by equilibrium and energy methods. Analysis of indeterminate structures by flexibility and stiffness solutions. Prereq: 560.201or 530.201
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EN 560.206 - Solid Mechanics & Theory of Structures
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EN 560.325: Concrete Structures
3.00 Credits
Johns Hopkins University
Principles of behavior of reinforced concrete beams, columns, and slabs, with application to the design of elementary structures are introduced. The ultimate strength and the elastic methods of analysis are used. Prereq: 560.206
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EN 560.325 - Concrete Structures
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EN 560.330: Foundation Design
3.00 Credits
Johns Hopkins University
Application of soil mechanics theory and soil test results to the analysis and design of foundations for structures; retaining walls; embankments; design of pile and shallow footing foundations; slope stability. Prereq: 560.305
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EN 560.330 - Foundation Design
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EN 560.350: Civil Engineering Design II
3.00 Credits
Johns Hopkins University
A study of the engineering design process from problem definition to the final design. There are team projects which include written and oral presentations. Requirements: Student must be a senior in Civil Engineering.
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EN 560.350 - Civil Engineering Design II
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