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Course Results

Results for: Department: Engineering Science 4 courses
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  • ESG 111: Progrmng for Engnrs

    Undergraduate 3 credits

    Pre- or Corequisites: AMS 151 or MAT 125 or 131 or 141; PHY 125/133 or 131/133 or 141

    Introduces computer programming techniques for engineering students who have not completed any programming courses prior. Students learn the basics of programming in general and programming MATLAB in particular. This is designed for students to become comfortable enough to continue learning MATLAB and other programming languages on their own.

    Session Class # Section Instructor Days Time Campus Status Notes
    Session 16586230Maya KogaFlexible (Online)TBAWest (Main Campus)Open
    ×

  • ESG 198: Fundmntls of Engineering Chem

    Undergraduate 3 credits

    Pre- or Corequisites: PHY 132 or PHY 142 or PHY 126 and PHY 127; MAT 127 or MAT 132 or MAT 142 or AM S 161

    A quantitative introduction to chemistry (stoichiometry, bonding, states of matter, equilibrium) with emphasis on topics of interest to students in engineering (metals and semiconductors; thermochemistry; electrochemistry and corrosion; polymers). Labs include an introduction to analytical techniques, electrochemistry and chemical synthesis. Both quantitative and qualitative methods are emphasized. May not be taken for credit in addition to CHE 131/133, 141/143 or 198/199.

    Session Class # Section Instructor Days Time Campus Status Notes
    Session 16319130Elizabeth CaseyFlexible (Online)TBAWest (Main Campus)Open
    ×

  • ESG 201: Learning from Disaster

    Undergraduate 3 credits

    Prerequisite: one D.E.C. E or SNW course

    DEC: H SBC: STAS

    The role of the engineer is to respond to a need by building or creating something along a certain set of guidelines (or specifications) which performs a given function. Just as importantly, that device, plan or creation should perform its function without fail. Everything, however, does eventually fail and, in some cases, fails with catastrophic results. Through discussion and analysis of engineering disasters from from nuclear meltdowns to lost spacecraft to stock market crashes, this course will focus on how modern engineers learn from their mistakes in order to create designs that decrease the chance and severity of failure.

    Session Class # Section Instructor Days Time Campus Status Notes
    Session 26489830Gary HaladaFlexible (Online)TBAWest (Main Campus)Open
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  • ESG 332: Materials Sci I: Struct & Prop

    Undergraduate 3 credits

    Prerequisites: CHE 131 and CHE 133 (or Mechanical Engineering majors may use MEC 301 as a corequisit e)

    A study of the relationship between the structure and properties of engineering materials and the principles by which materials' properties are controlled. The structure and structural imperfections in simple crystalline materials and the role that these factors play in defining electrical conductivity, chemical reactivity, strength, and ductility are considered. The molecular structure of polymers is discussed and related to the behavior of plastics, rubbers, and synthetic fibers. The principles of phase equilibria and phase transformation in multicomponent systems are developed. These principles are applied to the control of the properties of semiconductors, commercial plastics, and engineering alloys by thermochemical treatment. Corrosion, oxidation, and other deterioration processes are interpreted through the interaction of materials with their environment.

    Session Class # Section Instructor Days Time Campus Status Notes
    Session 16312530T VenkateshTues. & Thurs.01:30-04:55PMWest (Main Campus)Open +
    ×

    Note: Synchronous Online

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