Courses tagged with "Nutrition" (6413)

Review the history, archaeology, art, and literature of ancient Egypt relating to warfare and weapons from the Predynastic Period to the end of the New Kingdom (Dynasty 20), evaluating the evidence represented by these source materials. The content includes; Kings, enemies, soldiers and weapons, Warfare in the Old and Middle Kingdoms, Warfare in the 18th Dynasty, Warfare in the Ramesside Period.

An introduction to the life and work of Andy Warhol, one of the world’s most famous artists, through exploration of five thematic framings of his life and career: celebrity, sex, money, death and time.

This course is a general overview of the recent political science literature on violent non-state actors. Its aim is to examine why non-state actors (such as warlords, terrorists, militias, etc.) resort to violence, what means and tactics they use, and what can be done to counter that violence. In that regard, the class will cover works pertaining to the production side of non-state violence (i.e. the objectives and organization of insurgents/terrorists/militias/warlords, their mobilization strategies and support base, how they coerce opponents, etc.); as well as the response that violence elicits from governments or other actors (i.e. counter-insurgency or counter-terrorism strategies, among others). Apart from introducing the basic variables and theoretical and empirical findings in the literature, this course will also grapple with questions of definition, operationalization of variables, and general methodology relevant to conducting research in this area of violent conflict. Though thematically-driven, this course will also reference cases from the contemporary battlefields of insurgency and terrorism (be it Afghanistan, Iraq, Pakistan, the West Bank and Gaza, Colombia, etc.) as they relate to the pertinent themes.

Alexander the Great conquered most of the world known to the ancient Greeks, fused the eastern and western peoples of his empire, and became a god – before his 33rd birthday. This course explores the life, leadership, and legacies of history’s warrior, and one of its most controversial leaders, an ambiguous genius whose story helps us to understand not only the history of warfare, but also different ideas about human sexuality, the history of relations between east and west, and the religious beliefs both of ancient polytheists and modern monotheists.

Before your course starts, try the new edX Demo where you can explore the fun, interactive learning environment and virtual labs. Learn more.

1.34 focuses on the geotechnical aspects of hazardous waste management, with specific emphasis on the design of land-based waste containment structures and hazardous waste remediation. Topics include: introduction to hazardous waste, definition of hazardous waste, regulatory requirements, waste characteristics, geo-chemistry, and contaminant transport; the design and operation of waste containment structures, landfills, impoundments, and mine-waste disposal; the characterization and remediation of contaminated sites, the superfund law, preliminary site assessment, site investigation techniques, and remediation technologies; and monitoring requirements.

This course deals with the principles of infrastructure planning in developing countries, with a focus on appropriate and sustainable technologies for water and sanitation. It also incorporates technical, socio-cultural, public health, and economic factors into the planning and design of water and sanitation systems. Upon completion, students will be able to plan simple, yet reliable, water supply and sanitation systems for developing countries that are compatible with local customs and available human and material resources. Graduate and upper division students from any department who are interested in international development at the grassroots level are encouraged to participate in this interdisciplinary subject.

Acknowledgment

This course was jointly developed by Earthea Nance and Susan Murcott in Spring 2006.

This course examines the policy and planning for the provision of water supply and sanitation services in developing countries. It reviews available technologies, but emphasizes the planning and policy process, including economic, social, environmental, and health issues. The course incorporates considerations of financing, pricing, institutional structure, consumer demand, and community participation in the planning process. And it evaluates policies and projects in case studies from Asia, Africa, Latin America, and Central and Eastern Europe.

This course is an overview of engineering approaches to protecting water quality with an emphasis on fundamental principals. Theory and conceptual design of systems for treating municipal wastewater and drinking water are discussed, as well as reactor theory, process kinetics, and models. Physical, chemical, and biological processes are presented, including sedimentation, filtration, biological treatment, disinfection, and sludge processing. Finally, there is discussion of engineered and natural processes for wastewater treatment.

Biochemical technology in water and wastewater treatment engineering is essential in the field of water treatment. In this environmental studies course you will learn the basic principles and characteristics of biochemical technology.

This knowledge is necessary for those in the environmental field. In this course we will use real world cases and vivid explanations to help you better understand the biological treatment process.

《水处理工程》是环境工程、环境科学、市政工程等相关专业的主干专业课。本课程旨在向学生全面讲授水和废水处理中主要的生物处理技术单元的基本原理和特点、工艺的基本计算方法和应用范围、主要构筑物的构成和运行特点、典型的水与废水处理工艺以及相关技术的国内外最新研究进展。主要讲述废水的好氧和厌氧生物处理工艺、生物脱氮除磷工艺、废水的天然处理工艺以及污泥的处理与处置。    

This introductory environmental science, environmental engineering and municipal engineering course will explore how physicochemical technology and techniques are applied to water and wastewater treatment. We will explore the basic calculation method, composition of structures and operation characteristics, and the latest advancements in water and wastewater treatment technology. Main physicochemical units, including coagulation and flocculation, sedimentation, flotation, filtration, disinfection, oxidation and reduction, membrane separation and ionic exchange, will be covered.

《水处理工程》是清华大学为环境工程、环境科学、市政工程等相关专业学生开设的主干专业课，包括物化处理技术和生化处理技术两大部分。《水处理工程-物化技术》旨在向学生全面讲授水和废水处理中主要的物化处理技术单元的基本原理和特点、工艺的基本计算方法和应用范围、主要构筑物的构成和运行特点、典型的水与废水处理工艺以及相关技术的国内外最新研究进展。本课程介绍的主要物化技术单元包括：混凝、沉淀与澄清、气浮、过滤、消毒、离子交换、膜分离、氧化还原和吸附。    

This course combines an overview of the science behind water and climate in the Western United States with a survey of the major legal, political, and cultural issues focused on this precious resource.

In this Public Service Design Seminar (PSDS), we will design and build products with developmentally disabled students at the Protestant Guild Learning Center in Waltham, MA. The class will work closely with community clients to make sure that what is developed is helpful and functional. These products will be built using the Hobby Shop equipment, the water jet machine in particular. Over the course of the seminar, this class will teach students how to use the OMAX® Jet Machining Center commonly called the water jet and associated OMAX® software. The product development process will also be detailed in depth: determining customer needs, concept development, prototyping, design, and manufacturing.

In this Public Service Design Seminar (PSDS), we will design and build products with developmentally disabled students at the Protestant Guild Learning Center in Waltham, MA. The class will work closely with community clients to make sure that what is developed is helpful and functional. These products will be built using the Hobby Shop equipment, the water jet machine in particular. Over the course of the seminar, this class will teach students how to use the OMAX® Jet Machining Center commonly called the water jet and associated OMAX® software. The product development process will also be detailed in depth: determining customer needs, concept development, prototyping, design, and manufacturing.

The course material emphasizes mathematical models for predicting distribution and fate of effluents discharged into lakes, reservoirs, rivers, estuaries, and oceans. It also focuses on formulation and structure of models as well as analytical and simple numerical solution techniques. Also discussed are the role of element cycles, such as oxygen, nitrogen, and phosphorus, as water quality indicators; offshore outfalls and diffusion; salinity intrusion in estuaries; and thermal stratification, eutrophication, and sedimentation processes in lakes and reservoirs. This course is a core requirement for the Environmental MEng program.

This subject is concerned with quantitative methods for analyzing large-scale water resource problems. Topics covered include the design and management of facilities for river basin development, flood control, water supply, groundwater remediation, and other activities related to water resources. Simulation models and optimization methods are often used to support analyses of water resource problems. In this subject we will be constructing simulation models with the MATLAB® programming language and solving numerical optimization problems with the GAMS optimization package.

This course will examine current conditions and trends in water and sanitation services in low and middle income countries. Within it we will take a critical look at the underlying political, economic, social, and technical reasons why almost a billion people lack access to improved water supplies and almost 2 billion still do not have improved sanitation services.

Using water as the unifying theme, explore ocean and freshwater topics and instructional strategies to integrate environmental content in your teaching practice.

This course is an introduction to basic ideas of geophysical wave motion in rotating, stratified, and rotating-stratified fluids. Subject begins with general wave concepts of phase and group velocity. It also covers the dynamics and kinematics of gravity waves with a focus on dispersion, energy flux, initial value problems, etc.

This course discusses the Linearized theory of wave phenomena in applied mechanics. Examples are chosen from elasticity, acoustics, geophysics, hydrodynamics and other subjects. The topics include: basic concepts, one dimensional examples, characteristics, dispersion and group velocity, scattering, transmission and reflection, two dimensional reflection and refraction across an interface, mode conversion in elastic waves, diffraction and parabolic approximation, radiation from a line source, surface Rayleigh waves and Love waves in elastic media, waves on the sea surface and internal waves in a stratified fluid, waves in moving media, ship wave pattern, atmospheric lee waves behind an obstacle, and waves through a laminated media.

Wavelets are localized basis functions, good for representing short-time events. The coefficients at each scale are filtered and subsampled to give coefficients at the next scale. This is Mallat's pyramid algorithm for multiresolution, connecting wavelets to filter banks. Wavelets and multiscale algorithms for compression and signal/image processing are developed. Subject is project-based for engineering and scientific applications.