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25 courses found which satisfy the condition "All Majors".
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Agricultural Mechanization Management
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Basis of Control Engineering
To enable the students to learn the analysis and design techniques of control systems by transfer function approach.
Fundamentals of Mechanical Manufacturing Technology
The basic objectives of this course are the following:
Machine elements design and manufacturing processes of metallic materials. Capacity to choose a particular
manufacturing method for a part type, according to their properties and characteristics, number of parts to be
manufactured ...
Calculation procedures for designing different machine elements, based on the most common failure criteria, and the
implications of material fatigue.
Hydraulic and pneumatic Driving
The properties of liquids as the working substance (liquid, gas). Principles of hydrostatics. Pascal's Law. The flow of
fluids - Continuity equation, Euler equations of fluid dynamics, Bernoulli's equation for ideal and real fluids, Navier-Stokes equation, laminar and turbulent flow. Specific energy loss: a local length. Model equations of state for ideal gas and real gases. Throttling fluid.
Introduction to agriculture engineering
Through this course, the students will be able to understand and learn technical knowledge and skills to excel in the field of agriculture. Combined with the disciplines of Chemical, electrical engineering, plant biology this course helps in applying science and technology to agricultural process and production.
Introduction to crops
<An Introduction to Crops>is compulsory course of College of Agronomy and Biotechnology for plant protection. The course focuses on the crop production of China and the world, effects and regulating approach of cultivation and farming system management on growth and development, yield and quality formation of main crops. This course is composed of three parts: introduction of crop production in china and the world, basic principle of cultivation and farming system of high yield and efficiency, growth and develop regulation, cultivation mechanism and technique of high yield and efficiency. By learning the course, students get insight into crop production and crop distribution at home and abroad, crop growth and develop regulation, cultivation factors effecting and regulating crop yield and quality. Learning emphasis of this course is on the mechanism and realizing approach of high yield and efficiency in main crops.
Mechatronics
This course is an introduction to designing mechatronic systems, which require integration of the mechanical and electrical engineering disciplines within a unified framework. There are significant laboratory-based design experiences. Topics covered in the course include: Low-level interfacing of software with hardware; use of high-level graphical programming tools to implement real-time computation tasks; digital logic; analog interfacing and power amplifiers; measurement and sensing; electromagnetic and optical transducers; control of mechatronic systems.
Agricultural Mechanics
This course is designed to provide students with introductory level experiences in selected major areas of agricultural mechanics technology which may include small engine maintenance and repair, metal fabrication, concrete construction, building
construction, plumbing, electrical wiring, maintenance of agricultural machinery,equipment and tractors. Learning activities include information, skill development and problem solving.
Mechanical Dynamics
This course is an introduction to the dynamics and vibrations of lumped-parameter models of mechanical systems. Topics covered include kinematics, force-momentum formulation for systems of particles and rigid bodies in planar motion, work-energy concepts, virtual displacements and virtual work. Students will also become familiar with the following topics: Lagrange's equations for systems of particles and rigid bodies in planar motion, and linearization of equations of motion. After this course, students will be able to evaluate free and forced vibration of linear multi-degree of freedom models of mechanical systems and matrix eigenvalue problems.
Analog and Digital Circuits
A course on the basics of analog circuits and digital circuits, including semiconductor devices, the basic amplifiering circuit, integrated operational amplifier, the basis of digital logic, logic gate circuits, combinational logic circuits, sequential logic circuits, Verilog hardware description language, semiconductor memory and programmable logic devices, analog-to-digital and digital-to-analog converters.
Engineering Materials
This course introduces several engineering materials, including metal materials (pure metals and alloys), non-metallic materials (polymers, ceramics and composites) and nano-materials, and their micro/meso-structures, macro-mechanical properties, microscopic mechanisms and the possible ways to improve their mechanical properties.
Engineering Thermodynamics
First and second laws of thermodynamics; properties of pure substances; closed and open systems of various types; applications to steady-flow and non-flow processes; power and refrigeration cycles;psychrometrics.
Engineering Mechanics
In the first half of the term, a sequence of lectures surveys the conceptual concerns and technological factors of building: the origin and processing of the major classes of building materials; their physical properties, capacities, and vulnerabilities to physical and environmental stressors; the techniques used to work those materials; and the principles, procedures, and details of building assembly. Corresponding construction examples and case studies of mid-scale public buildings introduce students to the exigencies that so often influence decision making in the technical process and inflect (and potentially enrich) design intention—regulatory requirement, physical and environmental stress and constraint, procedural complication, labor and material availability and quality, energy consumption, and ecological impact. After spring recess and in coordination with the studio design phase of the Building Project, the course turns to the detailed study of light wood-frame construction. Five lectures with practical exercises track the stages of construction of the single-family house and supplement ongoing design development of the Building Project house. In both its direct technical application to the work in the studio and its exploration of more general themes in current construction practice, the course seeks to illuminate the ecological considerations as well as the materials, means, and methods that are fundamental to the conception and execution of contemporary building.
Principle of Circuit Analysis
Mission:Understand fundamental principle and theory of circuit analysis, able to analyze and calculate circuits, able to do practical applications.
Covers electrics, electronics and engineering. Topics include KVL and KCL law; Thévenin`s and Norton`s theorem; time- and transform-domain circuit analysis; two-port Network analysis; lossless transmission line analysis.
Fluid Mechanics
The atmospheric air and water on the Earth surface are our familiar fluids due to their flows makeing much effects on our dailylife at all times.Fluid Mechanics is a scientific subject evidently exploring the law of the macroscopical motion of this kind of Newtonian fluid. The term fluid includes both gases and liquids. The methods and techniques in fluid mechanics are widely applied to deal with many problems in biofluid, environmental fluid, geophysical fluid and so on. This course is to introduce the terminology and techniques required in the study of the flows of fluids. The goal is to help students apply the universal physical principles such as conservation of mass, momentum and energy to understand the fundamental equations which govern most of the flow of fluids.
Plant Biology
Introduction to the structure, diversity, and physiology of plants with an emphasis on evolutionary relationships and adaptations to life on land. Topics include growth, resource acquisition, interactions with other organisms (i.e., fungi, bacteria, insects), reproduction, and survival in extreme environments. Laboratory sessions provide an overview of plant and diversity and an introduction to basic physiological processes.
Basic principles of mechanical design
This course is a basic technology course to foster the mechanical design capacity of students. The course has its teaching content focused on basic knowledge, basic theory and basic methods, and has its practical training focused on the basic training of design skills and innovative design capability.
General Biology
"General Biology is an introduction to biodiversity and the process of biological evolution, including the knowledge hierarchies: taxonomy, animal diversity, plant diversity, and evolution theories. With the basic groups of organisms and their distributions as the focuses, the evolution of life as the main line throughout, the course lets students understand the whole situation of biological world and evolutionary rules.
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Engineering Drawing
The curriculum of Engineering Drawing studies the theory and method of making and reading engineering drawing. It is a basic specialty course, especially emphasizing practical using. The curriculum is designed for students study technology but in non-mechanical major. Based on the theory of parallel projection, the curriculum teaches the basic theory of making an engineering drawing, introduces related national criterion (GB), and also introduces the making and reading method of specialty drawings. The curriculum includes the training of the skills in manual drawing and the abilities in computer aided drawing.
General Physics Lab
This course is to let the students study the basic thoretical knowledge, basic experimental methods and techniques of physics by making a series of experiments, to improve their capability of carrying out physics exeriment.