• Measurement and Control Technologies I
    • School of Mechanical Engineering
    • Credit. 4
    • ME392
    • Enroll
    • Fall , 2015
    • 1850
    • Course Description:
    • ( Exchange Programme )
    • The Course is one of the basic major courses for the above majors. It is the Major Required and Core Subjects for Mechanical and Power machinery Engineering students. The course is helpful for understanding the data and error analysis in measurement, and the principle and method on common engineering measurement.
    • Course Syllabus:
    • After completing the course, students should:
      1. Articulate the properties that distinguish fluids from other forms of matter, and the broad range of engineering applications and natural phenomena that involve fluid mechanics. (A1)
      2. Understand and analyze the basic moving equations on flow field, for example, correctly interpret the physical meaning of Bernoulli equation, boundary layer equations, and estimate levels of approximation in engineering models(A1、A2);
      3. Understand the meaning of laminar flow and turbulent flow, estimate the flow loss in viscous fluid flow. (A1)
      4. Apply basic principles to engineering analysis, and apply dimensional analysis and similitude to the design of experiments, and to the representation and interpretation of data. Properly interpret the Reynolds number and other fundamental nondimensional parameters, and their roles in defining regimes of fluid flows. (A1、A2、B2、B4、C2)
      5. Apply basic principles to finish experiments for parameters testing. (A3, B1,B4,C2)
    • Schedule:
    • Topics / Credit hours / Teaching methodology / Tasks / Intended learning outcomes / Assessment methods

      1. Introduction / 2 Credit hours / Lecture / Homework / /
      2. Principles of measurement / 12 Credit hours / Lecture / Homework / /
      3. Sensor and signal process r / 22 Credit hours / Lecture / Homework / /
      4. Measurement Experiments / 4 Credit hours / Experiment / Null / / Final Exam
      5. Design Projects / 8 Credit hours / Project / Homework / /
  • Reading list
  • Other Materials
  • Discussion
  • Homework download/submit
    • Du Zhengchun
    • Read more
    • Male
    • E-mail:
    • zcdu@sjtu.edu.cn
    • Profile
    • Shi Xi
    • Read more
    • Male
    • E-mail:
    • xishi@sjtu.edu.cn
    • Profile
  • Prerequisite Course:

    Advanced Mathematics; Physics, Probability and statistics, Theoretical Mechanics, Thermodynamics I, Engineering fluid mechanics

  • Textbooks:

    1.Donald F. Young, Bruce R. Munson, Theodore H. Okiishi, Introduction to Fluid Mechanics( 5th edition), Join Wiley & Sons, Inc., 2012
    2. Mathematical Handbook of Formulas and Tables, Schaum's Outlines, MR Spiegel & J. Liu
    3. An Album of Fluid Motion, Van Dyke : Illustrated Experiments in Fluid Mechanics Introduction to Fluid Mechanics, Fox & McDonald
  • Grading:

    15% / Homework
    15% / Experiments
    20% / Projects
    50% / One comprehensive final exam
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