FPCLW: Session 12
With one-third of Aotearoa New Zealand in public conservation, what visions and challenges exist for its future development and management? On Friday 10th July, the University of Otago Research Cluster for Natural Resources Law tackled these issues head-on at a significant symposium entitled The Future of Public Conservation Lands and Waters. Keynote address. Alistair Morrison, Director-General of the Department of Conservation.
Conservation: From the Farm to the Front Office
Conservation: From the Farm to the Front Office - Sustainability with a Sense of Place James Geringer was Governor of Wyoming from 1994 to January 2003. He modernized economic planning to extensively include technology and changed how natural resource agencies work together on the state, federal and local level. He joined Environmental Systems Research Institute (ESRI) in the summer of 2003 as Director of Policy and Public Sector Strategies, focused on how senior elected and corporate officials
The Palampore hangs in the Sir Christopher Ondaatje South Asian Gallery at the Royal Ontario Museum. Before installation in the gallery, this artifact was the focus of a conservation project lead by Shirley Ellis, Senior Textile Conservator at the ROM.
Transport Processes in the Environment, Fall 2004
Introduction to momentum and scalar transport in environmental flows, with emphasis given to river and lake systems. Derivation and solutions to the differential form of mass conservation equations. Topics include: molecular and turbulent diffusion, boundary layers, dissolution, phase partitioning, bed-water exchange, air-water exchange, settling and coagulation, buoyancy-driven flows, and stratification in lakes.
8.01 Physics I (MIT)
Physics I is a first-year physics course which introduces students to classical mechanics. Topics include: space and time; straight-line kinematics; motion in a plane; forces and equilibrium; experimental basis of Newton's laws; particle dynamics; universal gravitation; collisions and conservation laws; work and potential energy; vibrational motion; conservative forces; inertial forces and non-inertial frames; central force motions; rigid bodies and rotational dynamics.
Worldwide Amphibian Declines
AmphibiaWeb is an online system enabling anyone with a Web browser to search and retrieve information relating to amphibian biology and conservation. This site was inspired by the global declines of amphibians, the study of which has been hindered by the lack of multidisplinary studies and a lack of coordination in monitoring, in field studies, and in lab studies. We hope AmphibiaWeb will encourage a shared vision for the study of global amphibian declines and the conservation of remaining amphi
eBird's goal is to maximize the utility and accessibility of the vast numbers of bird observations made each year by recreational and professional bird watchers. It is amassing one of the largest and fastest growing biodiversity data resources in existence. For example, in 2006, participants reported more than 4.3 million bird observations across North America. The observations of each participant join those of others in an international network of eBird users. eBird then shares these observati
Science in Focus: Energy: Workshop 6. Energy and Systems
Physicists use the concept of a system to trace and quantify the flow of energy. In this session, take a close look at a number of energy systems and see how this concept is closely linked to the Law of Conservation of Energy.,This segment explores the question "What is a system? by visiting classrooms as well as interviewing students and scientists.
8.311 Electromagnetic Theory (MIT)
Electromagnetic Theory covers the basic principles of electromagnetism: experimental basis, electrostatics, magnetic fields of steady currents, motional e.m.f. and electromagnetic induction, Maxwell's equations, propagation and radiation of electromagnetic waves, electric and magnetic properties of matter, and conservation laws. This is a graduate level subject which uses appropriate mathematics but whose emphasis is on physical phenomena and principles.
2.20 Marine Hydrodynamics (13.021) (MIT)
In this course the fundamentals of fluid mechanics are developed in the context of naval architecture and ocean science and engineering. The various topics covered are: Transport theorem and conservation principles, Navier-Stokes' equation, dimensional analysis, ideal and potential flows, vorticity and Kelvin's theorem, hydrodynamic forces in potential flow, D'Alembert's paradox, added-mass, slender-body theory, viscous-fluid flow, laminar and turbulent boundary layers, model testing, scaling la
12.804 Large-scale Flow Dynamics Lab (MIT)
12.804 is a laboratory accompaniment to 12.803, Quasi-balanced Circulations in Oceans and Atmospheres. The subject includes analysis of observations of oceanic and atmospheric quasi-balanced flows, computational models, and rotating tank experiments. Student projects illustrate the basic principles of potential vorticity conservation and inversion, Rossby wave propagation, baroclinic instability, and the behavior of isolated vortices.
2.25 Advanced Fluid Mechanics (MIT)
This course surveys the principal concepts and methods of fluid dynamics. Topics include mass conservation, momentum, and energy equations for continua, the Navier-Stokes equation for viscous flows, similarity and dimensional analysis, lubrication theory, boundary layers and separation, circulation and vorticity theorems, potential flow, an introduction to turbulence, lift and drag, surface tension and surface tension driven flows. The class assumes students have had one prior undergraduate clas
Fidafrique Archives of Estuarine-Science@Jiscmail.ac.uk 18.369 Mathematical Methods in Nanophotonics (MIT) 1.061 Transport Processes in the Environment (MIT) 21A.355J The Anthropology of Biology (MIT) 6.641 Electromagnetic Fields, Forces, and Motion (MIT) 12.803 Quasi-Balanced Circulations in Oceans and Atmospheres (MIT) 4.42J Fundamentals of Energy in Buildings (MIT)
FIDAFRIQUE is a rural development and poverty reduction network in Western and Central Africa network. The website contains a number of reports and presentations on rural and agricultural reasearch and development in the area. Topics covered include
Estuarine-science is the official discussion list of the Estuarine and Coastal Sciences Association (ECSA), where ECSA members and non-members can discuss estuarine and coastal topics, particularly in the natural sciences. The l
Find out what solid-state physics has brought to Electromagnetism in the last 20 years. This course surveys the physics and mathematics of nanophotonics—electromagnetic waves in media structured on the scale of the wavelength. Topics include computational methods combined with high-level algebraic techniques borrowed from solid-state quantum mechanics: linear algebra and eigensystems, group theory, Bloch's theorem and conservation laws, perturbation methods, and coupled-mode theories, to u
This class serves as an introduction to mass transport in environmental flows, with emphasis given to river and lake systems. The class will cover the derivation and solutions to the differential form of mass conservation equations. Class topics to be covered will include: molecular and turbulent diffusion, boundary layers, dissolution, bed-water exchange, air-water exchange and particle transport.
If the twentieth century was the century of physics, the twenty-first promises to be the century of biology. This subject examines the cultural, political, and economic dimensions of biology in the age of genomics, biotechnological enterprise, biodiversity conservation, pharmaceutical bioprospecting, and synthetic biology. Although we examine such social concerns as bioterrorism, genetic modification, and cloning, this is not a class in bioethics, but rather an anthropological inquiry into how t
This course examines electric and magnetic quasistatic forms of Maxwell's equations applied to dielectric, conduction, and magnetization boundary value problems. Topics covered include: electromagnetic forces, force densities, and stress tensors, including magnetization and polarization; thermodynamics of electromagnetic fields, equations of motion, and energy conservation; applications to synchronous, induction, and commutator machines; sensors and transducers; microelectromechanical systems; p
This course introduces the students to dynamics of large-scale circulations in oceans and atmospheres. Basic concepts include mass and momentum conservation, hydrostatic and geostrophic balance, and pressure and other vertical coordinates. It covers the topics of fundamental conservation and balance principles for large-scale flow, generation and dissipation of quasi-balanced eddies, as well as equilibrated quasi-balanced systems. Examples of oceanic and atmospheric quasi-balanced flows, computa
This subject provides a first course in thermo-sciences for students primarily interested in architecture and building technology. It introduces the fundamentals important to energy, ventilation, air conditioning and comfort in buildings. It includes a detailed treatment of different forms of energy, energy conservation, properties of gases and liquids, air-water vapor mixtures and performance limits for air conditioning and power producing systems. Heat transfer principles are introduced with a
Archives of Estuarine-Science@Jiscmail.ac.uk 18.369 Mathematical Methods in Nanophotonics (MIT) 1.061 Transport Processes in the Environment (MIT) 21A.355J The Anthropology of Biology (MIT) 6.641 Electromagnetic Fields, Forces, and Motion (MIT) 12.803 Quasi-Balanced Circulations in Oceans and Atmospheres (MIT) 4.42J Fundamentals of Energy in Buildings (MIT)
18.369 Mathematical Methods in Nanophotonics (MIT)
1.061 Transport Processes in the Environment (MIT)
21A.355J The Anthropology of Biology (MIT)
6.641 Electromagnetic Fields, Forces, and Motion (MIT)
12.803 Quasi-Balanced Circulations in Oceans and Atmospheres (MIT)
4.42J Fundamentals of Energy in Buildings (MIT)