Experiment has a very important role in the teaching of engineering fluid mechanics, but because of the condition limitations, traditional real experiment often has some drawbacks and limitations.
实验在工程流体力学教学中有着非常重要的作用,但由于条件限制,传统的真实实验常存在一些弊端和局限性。
The prerequisites for this course are the undergraduate courses in thermodynamics and fluid mechanics, specifically Thermal Fluids Engineering I and Thermal Fluids Engineering II or their equivalents.
本课程之先修科目有大学部之热力学及流体力学,即热流工程i及热流工程II或者与其相当的科目。
We will be matched appropriated demonstration and experiment which may be as a main point of lectureship for the course of experiment of fluid mechanics at the speciality of mechanical engineering.
配以适当的演示和实验,可作为矿业及机械机构工程专业工程流体力学课程实验课的一个讲座提纲。
Research on these kinds of problems will be of great importance in engineering and theoretical fluid mechanics.
研究这类问题不仅具有强烈的工程背景和经济意义,在学术上也具有很好的理论研究价值。
Fluid Mechanics, Heat Transfer, and Mass Transfer: Chemical Engineering Practice.
流体力学,传热,传质:化学工程实践。
Engineering is based principally on physics, chemistry, and mathematics and their extensions into materials science, soild and fluid mechanics, thermodynamics, and systems analysis.
物理学、化学、数学,以及这些学科扩展出的物质科学、固体物理、流体力学、热力学和系统分析等等学科是工程学的重要基础。
This course introduces the principles of fluid mechanics and applies them to practical ocean engineering problems.
本课程简介流体力学的原则并加以应用至实际的海洋工程问题。
Fluid mechanics is a major course in the specialties of civil engineering, mechanical power and water conservancy.
流体力学是土木类、机械动力类及水利类专业的专业基础必修课。
Fluid mechanics is a major course in the specialties of civil engineering, mechanical power and water conservancy.
流体力学是土木类、机械动力类及水利类专业的专业基础必修课。
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