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EN 510.429: Materials Science Lab II

3.00 Credits

Johns Hopkins University

Prereq: 510.311 or Perm. Req’d Lab is assigned by the instructor This laboratory concentrates on the experimental investigation of electronic properties of materials using basic measurement techniques. Topics include thermal conductivity of metal alloys, electrical conductivity of metals/metal alloys and semiconductors, electronic behavior at infrared wavelengths, magnetic behavior of materials, carrier mobility in semiconductors and the Hall effect in metals and semiconductors.

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EN 510.431: Biocompatibility of Materials

3.00 Credits

Johns Hopkins University

Prereq: 510.104 or 510.316; Department Majors only or perm. req’d This course provides a detailed examination of the interaction of surgical implant materials (i.e., metals, polymers, ceramics, and composites) with the body. The effect of the physiological environment on the properties of implant materials is described as well as the cellular, tissue response to the implant. Concepts dealing with the design of materials with improved biocompatibility are explored.

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EN 510.434: Design Rsch Material Sci

3.00 Credits

Johns Hopkins University

Prereq: 510.311-312, 510.428-429, and 510.433 This course is the second half of a two-semester sequence required for seniors majoring or double majoring in materials science and engineering. It is intended to provide a broad exposure to many aspects of planning and conducting independent research.

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EN 510.436: The Foundations of Information Technology

3.00 Credits

Johns Hopkins University

The revolutionary technologies of the Information age have been driven by an array of physics and materials science advances which have served as the foundation for their development. In this course we will explore the developments in solid-state devices, photonics, optical communications, and storage that serve as the underpinnings of the revolution with focus on the enabling materials innovations. The fundamental physical principles, i.e., the basic science of the devices and concepts will be reviewed. In addition, next generation concepts and devices, (such as holographic storage, quantum computing, etc.), will be discussed. Also listed as 510.636.

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EN 510.443: Chemistry and Physics of Polymers

3.00 Credits

Johns Hopkins University

The course will describe and evaluate the synthetic routes, including condensation and addition polymerization, to macromolecules with varied constituents and properties. Factors that affect the efficiencies of the syntheses will be discussed. Properties of polymers that lead to technological applications will be covered, and the physical basis for these properties will be derived. Connections to mechanical, electronic, photonic, and biological applications will be made. Also listed as 510.643. Prerequisites: Organic Chemistry I and one semester of thermodynamics

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EN 520.142: Digital Systems Fundamentals

3.00 Credits

Johns Hopkins University

Number systems and computer codes, switching functions, minimization of switching functions, Quine - McCluskey method, sequential logic, state tables, memory devices, analysis, and synthesis of synchronous sequential devices.

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EN 520.212: ECE Engineering Team Project (Freshmen and Sophomores)

1.00 Credits

Johns Hopkins University

Permission of instructor required. This course introduces the student to the basics of engineering team projects. The student will participate in an ECE engineering team project as a member. The student is expected to participate in the different aspects of the project over several semesters. (Freshmen and Sophomores)

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EN 520.213: Circuits

4.00 Credits

Johns Hopkins University

Prereq. 110.108 and 110.109 An introductory course on electric circuit analysis. Topics include time domain and frequency domain analysis techniques, transient and steady-state response, and operational amplifiers.

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EN 520.214: Signals & Systems I

4.00 Credits

Johns Hopkins University

Prerequisite: Circuits 520.213, Co-requisite: Calculus III 110.202. An introduction to discrete-time and continuous-time signals and systems covers representation of signals and linear time-invariant systems and Fourier analysis.

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EN 520.216: Intro to VLSI

3.00 Credits

Johns Hopkins University

Prerequisite: 520.142 and Recommended: 520.213. This course teaches the basics of switch-level digital CMOS VLSI design. This includes creating digital gates using MOS transistors as switches, laying out a design using CAD tools, and checking the design for conformance to the Scalable CMOS design rules.

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