# 水利水电工程英文版课程描述

Course description for students majoring in Water Conservancy and Hydropower Engineering

Advanced mathematics is an important basic theory course compulsory for undergraduates of all engineering majors of institutions of higher education. In this course, students can learn the basic concepts, basic theories and basic computing skills in respect of functions and limits, derivative and differential of function of one variable, mean value theorem and application of derivative, indefinite integral, definite integral, application of definite integral, spatial analytic geometry, vector algebra, etc., laying a necessary mathematical foundation for subsequent courses and further learning mathematical knowledge.

Written examination: 100 scores for midterm examination, which will be converted into results at the percentage of 20%, and the examination time is 120 minutes; 100 scores for final examination, which will be converted into results at the percentage of 70%, and the examination time is 120 minutes;

Advanced mathematics is an important basic theory course compulsory for undergraduates of all engineering majors of institutions of higher education. In this course, students can learn the basic concepts, basic theories and basic computing skills in respect of infinite series, differential of function of many variables and its application, multiple integral, curve integral and surface integral, differential equation and its application, etc., laying a necessary mathematical foundation for subsequent courses and further learning mathematical knowledge.

2 掌握基本理论和运算技能，为后续课程提供必不可少的数学基础知识 To master basic theories and basic computing skills, providing essential basic mathematical knowledge for subsequent courses; 3 为解决实际问题提供有效的数学方法 To provide effective mathematical methods to solve actual problems.

Written examination: 100 scores for midterm examination, which will be converted into results at the percentage of 20%, and the examination time is 120 minutes; 100 scores for final examination, which will be converted into results at the percentage of 70%, and the examination time is 120 minutes;

2011-2012 年 2011-2012

Physics is a basic course for undergraduates of science and engineering. In this course, students can get familiar with the structure, nature and interaction of matters in nature and basic laws of their motions, laying a necessary physical foundation for learning subsequent basic and professional courses and for further acquiring relevant knowledge. Physics includes classical physics and modern physics, where classical physics include: exercise, fluids, heat, sound, light, 课程目标： electricity, magnetism, etc.; modern physics, including: the theory of relativity, atomic structure, quantum theory, Course Objectives ： nuclear physics, elementary particle physics.. 1 使学生对物质的基本结构、基本相互作用、基本运动形式与规律形成较完整的认识， To let students have a complete understanding of the basic structure, fundamental interactions and basic form and law of motion of matters; 2 培养学生辩证唯物主义的思想方法和先进的自然观与科学观 To train students’ way of thinking of dialectical materialism and advanced view of nature and science;

3 帮助学生掌握研究物质运动规律的基本方法，提高自学、研究和创新能力。 To help students to master the basic methods for studying the law of motion of matters and improve their capacities in respect of self-study, research and innovation;

Written examination: 100 scores for midterm examination, which will be converted into results at the percentage of 20%, and the examination time is 120 minutes;

Linear algebra is an important basic theory course compulsory for undergraduates of all engineering majors of institutions of higher education. It is a branch of mathematics and its research objects are vector, vector space, linear transformation and finite dimensional linear simultaneous equations. Since the linear problem is widely used in various fields of science and technology and some nonlinear problems can be transformed into linear problems under certain conditions, the methods described in this course are widely used in various fields. 课程目标： Course Objectives： 1.通过教学，使学生掌握线性代数的基本理论与方法 To let students master the basic theories and methods of linear algebra in learning; 2.培养学生应用线性代数的数学方法去解决实际问题的能力 To train students’ ability to solve practical problems with the mathematical methods of linear algebra; 3 为学习相关课程进一步扩大数学知识面并奠定必要的数学基础 To further expand the mathematical knowledge and lay a necessary mathematical foundation for relevant courses.

100 scores for final examination, which will be converted into results at the percentage of 70%, and the examination time is 120 minutes; 课程名称：工程制图（48+32 学时）

《工程制图》是高等学校工科专业的技术基础课。分为两个部分来上课，第一个部分是研究在平面上用图形表 示形体和解决空间几何问题的理论和方法的学科，其内容包括画法几何、制图基础、专业制图三个部分。画法 几何的内容还包含投影变换、截交线、相贯线和展开图等。投影基础部分以点线面、立体截交、相贯、组合体 等内容。同时工程制图是机械制图的投影理论基础，它应用投影的方法研究多面正投影图、轴测图、透视图和 标高投影图的绘制原理，其中多面正投影图是主要研究内容。第二个部分研究了 CAD 的画法及制图基本知识， 包括点、直线及平面的投影，立体的投影，轴测图，组合体视图，机件的常用表达方法，标准件和常用件、零 件图，装配图，计算机交互绘图系统，计算机绘制二维平面图，计算机绘制三维立体图。 课程目标： Course Objectives： 1 掌握投影原理及其应用 To master projection principles and their application； 2 培养对三维形象的逻辑思维和形象思维能力 To train the logical thinking and image thinking skills ability for three-dimensional images; 3 贯彻制图标准，进行绘制工程图的基础训练 To implement drawing standards and conduct basic training for drawing engineering drawings; 4 掌握绘制和阅读工程图样的方法 To master the methods for drawing and reading engineering drawings; 5 掌握徒手绘图的基本技术 To master the basic techniques of freehand drawing; 6 熟练掌握 CAD 画图的专业知识，并且能够熟练运用 CAD 画图软件进行计算机内二维三维图纸的绘制。

2012-2013 年 2012-2013

2：期末考试：70%，形式为笔试。 课程名称：大学物理 2(64 学时) 学期:3 学年：2012-2013 年 Final examination: 70%, in the form of written examination. Term：3 Academic year：2012-2013 Course name：Physics 2（64hours） 笔试：卷面 100 分，按 70%折合成绩，考试时间为 120 分钟。 100 scores for final examination, which will be converted into results at the percentage of 70%, and the examination time is 120 minutes;

It further introduces the structure, nature and interaction of matters in nature and basic laws of their motions and deepens the introduction to classical physics and modern physics on the basis of College Physics 1, laying a necessary physical foundation for learning subsequent basic and professional courses and for further acquiring relevant knowledge. 课程目标： Course Objectives： 1 掌握物理学基本知识、基本概念、基本规律和基本方法 To master the basic knowledge, concepts, laws and methods of physics;

2 了解当代物理学发展概况、了解当代高新技术发展的物理基础 To understand the development overview of modern physics and to understand the physical foundation for contemporary high-tech development;

3 帮助学生掌握研究物质运动规律的基本方法，提高自学、研究和创新能力。 To help students to master the basic methods for studying the laws of motion of matters and improve their capacities in respect of self-study, research and innovation; 成绩评定： Achievement assessment：

Written examination: 100 scores for midterm examination, which will be converted into results at the percentage of 15%, and the examination time is 120 minutes;

100 scores for final examination, which will be converted into results at the percentage of 75%, and the examination time is 120 minutes;

The main contents of this course include: basic concepts of probability theory, random variables and their probability distribution, digital features, law of large numbers and central limit theorem, statistic and its probability distribution, parameter estimation and hypothesis testing, regression analysis, analysis of variance, Markov chain, etc.

The learning contents include: theoretical foundation of hydrostatics and hydrodynamic theory; analysis of similar principles and dimensions; flow resistance and head loss; pressure piping; orifice, nozzle flow, gate orifice flow and weir flow; uniform flow of open channel; non-uniform flow of open channel; seepage, etc.

2 掌握实验的基本技能，并具有一定的分析、解决本专业设计水力学问题的能力 To master the basic skills of experiments, and the ability to analyze and solve problems in hydraulics of professional design; 3 为后续专业课程的学习、从事技术工作打下良好的基础 To lay a good foundation for learning of subsequent courses and doing technical work; 成绩评定： Achievement assessment： 考核采用平时成绩与期末考试，理论与实践相结合的方式 Assessment is conducted by way of combination of usual performance, final examination, theory and practice.

1: 平时成绩：30%,形式有课堂考勤、回答问题和课堂作业。 Usual performance: 30%, in the form of class attendance and class work. 2：期末考试：70%，形式为笔试。 Final examination: 70%, in the form of written examination. 笔试：卷面 100 分，按 70%折合成绩，考试时间为 120 分钟。 100 scores for final examination, which will be converted into results at the percentage of 70%, and the examination time is 120 minutes;

It stresses on inorganic cementing materials, concrete and mortar, steels, asphalt and asphalt mixture and describes the properties and application of civil engineering materials. In addition, it also introduces wood, synthetic polymer materials, wall materials and functional materials, etc. The textbook also introduces the quality test methods for common civil engineering materials and the basic knowledge of new civil engineering materials. 课程目标： Course Objectives： 1 掌握土木工程中主要应用的材料种类及其性能。 To master the types of materials mainly applied in civil engineering and their properties; 2 与后续专业紧密结合，保证工程建筑物的稳定安全。 To be closely related to subsequent majors to ensure stable and secure engineering buildings;

2 掌握一些具体的分析的方法以用到水利工程的实践中

Structural Mechanics is a branch of solid mechanics. It is a discipline mainly studying the law of force bearing and transfer of engineering structure and on how to achieve structural optimization. The study contents of structural mechanics include composition rules of structure, responses of structure under different effects (external force, temperature effects, construction errors, deformation of support, etc.), including the calculation of internal force (axial force, shearing force, bending moment and torque), the calculation of displacement (linear displacement and angular displacement), the calculation of dynamic responses (natural vibration period and mode of vibration) of structure under the effects of dynamic loading, etc.

The course studies soil permeability and seepage and the constitutive relations of stress - strain and stress - strain - time of soil body, as well as the strength criterion and theory; studies the stress distribution on the contact surface of foundation and foundation soil and in soil body of foundation, foundation’s compression deformation and its relation 课程目标： with various forms of foundations and foundation’s bearing capacity and stability on the basis of even load or eccentric Course load andObjectives effects of ： various forms of foundations; in accordance with the limit equilibrium principle, the stability 1 掌握土的工程特性，土的物理学特性与指标的测试方法 coefficient is used for evaluation of natural soil slopes’ stability and design of artificial slopes; and calculate the lateral To master soil’s characteristics, and load test methods for soil’s physical characteristics and indicators; pressure of soil engineering body under the effects of dead and additional load of buildings to provide basis for the design of retaining structures; and to improve and develop the technologies, methods, instruments and equipment necessary for the 2 掌握土力学基本原理与概念、地基设计基本原理 aforesaid studies. To master the basic principles and concepts of soil mechanics and basic principles of foundation design; 3 天然土坡和人工土坡的稳定设计 Stable design of natural slopes and artificial slopes;

2 了解具有代表性的水利水电项目施工方案，并深入分析和了解其施工的方法、程序和管理措施，系统的进行 总结。 3 结合案例分析，把理论与实际相结合从了为课程设计和生产实习做好准备。

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