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Brown, Cynthia L. Cynthia Light Overview. Publication Timeline. Most widely held works by Cynthia L Brown. Amazing kitchen chemistry projects you can build yourself by Cynthia L Brown Book 7 editions published between and in English and Undetermined and held by WorldCat member libraries worldwide From the Publisher: Kids will learn how to shoot candy and soda 10 feet up in the air or create a crystal collage with the key chemistry concepts and exciting yet educational projects in this handbook.
With more than two dozen fascinating projects illustrating major chemistry themes-including atoms and molecules; the characteristics of solids, liquids, and gases; chemical reactions; acids and bases; and the properties of water-children learn the theory behind each project and then see the principles in action.
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A combination of wacky experiments, yummy cooking projects, and unusual creations, the activities can all be completed using common household materials and include walking on "goop," making taffy, viewing the world from inside a giant bubble, and many more sure to keep kids investigating how the world works. Explore rocks and minerals!
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Exploring the reasons behind the physical changes of the world, this examination also outlines the rock cycle of igneous, sedimentary, and metamorphic rocks; the process of discovering fossils and what they reveal about the past; and how to start a collection of natural artifacts. Discover national monuments, national parks, natural wonders by Cynthia L Brown 6 editions published between and in English and held by WorldCat member libraries worldwide Fascinating facts about America's most popular natural landmarks provide the backbone for this fun-filled collection of activities that replicate the organic processes that formed them.
Interspersed with history, factoids, and sidebars, this engaging reference explores scientific concepts, such as the formation of coral reefs and the cause of volcanic eruptions. Each monument--from the Lava Beds to the Petrified Forest--is showcased in a graphic multipage spread and is followed by hands-on experiments, allowing children to make their own stalactites and discover how a river can erode rock into a canyon.
Expressing true appreciation for the United States' natural wonders, this comprehensive guide clearly illustrates their formation, from glittering caves to giant trees. Geology of the eastern coast : investigate how the Earth was formed with 15 projects by Cynthia L Brown 5 editions published in in English and held by WorldCat member libraries worldwide "In Geology of the Eastern coast, kids ages will learn about the big questions of geology and physical geography as they explore the unique setting of the Eastern Coast.
Kids will have a chance to explore the region while learning fun facts and trying experiments and projects, such as creating folded mountains and discovering the effects of an oil spill. ESS Geoscience Communication 4 Covers principles of organizing, developing, and writing geoscience information including abstracts, presentations, scientific articles, correspondences, and proposals.
Reviews writing conventions, use of illustrations, style, and tone. Includes hands-on analysis applied to geologic patterns and phenomena: sources geological data; geological mapping; measures of topography; hydrologic flow patterns; and topics of the students' own interests. Offered: ASp.
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Study of land forms, structure, lithology, surface processes using aircraft and satellite data. Use of digital multispectral images and radar images for geological mapping. ESS Field Methods in Remote Sensing 4 NW Explores the use of field instrumentation to remotely sense the environment with applications to landslides, glaciers, surface topography, and change detection. Also covers wave propagation, surface scattering, absorption and reflectance; data processing, analysis, and interpretation; field data collection strategies.
Duvall Advanced-level survey of tectonic geomorphology topics, focusing on the interplay between tectonic and surface processes that shape the landscape in regions of active deformation and at time scales ranging from days to millions of years. ESS Fluvial Geomorphology 5 Hydraulic and morphological characteristics of streams and valley floors.
Landscape evolution by stream erosion and deposition. Field exercises emphasize quantitative analysis of fluvial processes, channel forms, acquisition of various skills, such as mapping, topographic surveying, report writing. ESS Hillslope Geomorphology 5 NW Theoretical, laboratory, and field study of hillslope evolution by mass wasting and water erosion.
ESS Principles of Glaciology 4 NW Covers snow deposition and metamorphism, avalanches, heat and mass balance at snow and ice surfaces, glacier flow, ice sheets, sea ice, permafrost, methods of paleoclimate reconstruction, Ice Age theories. Prerequisite: PHYS Theories on causes of climatic variation.
ESS Petrology of Igneous Rocks 5 NW Systematic study of the major families of volcanic and plutonic igneous rocks with emphasis on tectonic setting, phase relations, geochemistry, and models of their origin and evolution throughout geologic time.
Laboratory emphasizes thin-section study of rocks using transmitted and reflected light. Prerequisite: ESS ESS Engineering Geology: Methods and Application 4 Applies the application of geologic principles to geotechnical and environmental problems; includes investigation and characterization of soil and rock properties.
Includes two weekend field trips. ESS Analytical Paleobiology 5 NW Introduction to the principles and analytical methods in the study of paleobiology, morphology, and systematics. Topics include paleobiogeography, morphology-based phylogenetics, evolutionary rates, biodiversity curves, functional morphology, morphometrics, and paleoecology. Emphasis on application of methods using fossil and modern specimens. Includes two or more weeks away from campus at field site. ESS Paleobiology 3 NW Biological evolution over the past million years, considering how the reciprocal interactions between environment and evolution have influenced the major episodes in life's history and providing a background for assessing the evolutionary impact of modern environmental change.
ESS Invertebrate Paleontology 5 NW Important larger invertebrate groups; morphology, classification, stratigraphic distribution, evolution, paleoecology. Offered: jointly with BIOL SIDOR Examines fossil vertebrate life, focusing on systematics and morphology of major lineages fish, reptiles, bird, and early mammal relatives.
Examines fossil and modern vertebrates from the Burke Museum collection in the lab. Weekend field trip. Morphology, adaptations, extinctions, evolutionary patterns. Structures and relationships of most major groups. Field trip. ESS Hydrogeology 4 NW Covers the analysis of groundwater flow systems, geologic controls, and hydrologic properties; basics of chemistry and solute transport in groundwater; and the use of numerical models.
Considers local examples and groundwater resource management. Principles of stratigraphy, including biostratigraphy, magnetostratigraphy, seismic stratigraphy, subsurface analysis. Basin analysis, evolution of sedimentary basins and continental margins. Licht Principles of sedimentary geology, including survey of modern processes that produce sedimentary rocks and sequences. Recognition of various depositional environments represented in the geologic record, including terrestrial, marine terrigenous, and carbonate environments.
Two field trips required. Topics include groundwater composition, weathering, mineral adsorption, equilibrium computer modeling, clay minerals, organic geochemistry, and groundwater quality. Nuclide production by cosmic radiation above and below ground; tracer methods; exposure dating; coupling of cosmogenic nuclide data to geomorphic models. Open to undergraduate students only. Examines triggers of magma ascent, controls on volatile build-up and loss, magma fragmentation, magma-groundwater interaction, eruption column dynamics, gravity-controlled eruptive phenomena, syn- and post-eruption lahars and other re-working of deposits.
ESS Structure and Tectonics 5 NW Geometry, kinematics, and tectonic setting of major types of structures, including those in contractional fold-and-thrust belts; extended crust; strike-slip-dominated regimes; and shear zones. Laboratory exercises develop basic tools of structural geology.
Roland Saenger Introduction to theory and practice of seismic exploration. Application of refraction and reflection techniques to geologic investigations, tectonics and mineral exploration. Practice in the interpretation of subsurface structure. ESS Introduction to Space Physics 3 NW Introduces several areas of space physics, the physical principles that apply therein, and the methods by which significant observations are made.
Covers electromagnetic and plasma processes from the center of the sun to the surface of the earth. ESS Rockets and Instrumentation , max. Project may vary each year. Promotes interdisciplinary understanding of climate concepts. Topics vary by quarter and may include clumped isotopes, triple-oxygen isotopes, rate isotopes, mass-independent fractionation, and their incorporation into Earth system models. Introduces theory, measurement, and applications to processes in Earth, ocean, atmospheric, planetary, and climate science.
Topics include alkalinity measurements, iron analyses, colorimetric analyses, heavy metal adsorption and geochemical modeling. Pekkanen Law and policy foundations of outer space activities. Essential origins, sources, and role of space law, as well as key institutions, forums, and forces shaping the contemporary governance of space activities. Provides a thorough grounding in U. ESS Honors Seminar 3 Covers current scientific topics in earth and space sciences; philosophy and methodology of science strategies for developing research projects; scientific education and career planning.
May require colloquium or local conference attendance. Work may include independent research projects focused on the field study region and experiential learning in outdoor environments. Recommended: introductory geology course. Teaching experience gained through assisting earth science instructors in college or K classrooms, laboratories. Earth science pedagogical logistics, teaching methods, laboratory classroom, and field teaching methods are covered in seminar sessions. Emphasis varies, but topics may include planetary geology, astronomy, global change, aeronautical engineering, and remote sensing.
ESS Independent Study , max. Designed for advanced students seeking additional education in a specific subject. Prerequisite: Permission of instructor. Explores fundamental geochemical concepts using current research issues and discussion. Concepts include radiogenic and stable isotope systematic, thermodynamics, high and low temperature chemistry of rocks and water, geochemical cycles through Earth's history. Prerequisite: graduate student standing or permission of instructor. ESS The Solid Earth 3 Concepts of internal earth processes: Earth as heat engine and chemical processor, style of mantle convection, origin and evolution of the Earth's magnetic field, Cascadia subduction and hazards.
Introduces seismology, fluid dynamics, heat flow, gravity, and geomagnetism. Focuses on the analysis, critique, and communication of ideas from scientific literature. ESS Introduction to Solar Terrestrial Physics 3 Introduces several areas of space physics, the physical principles that apply therein, and the methods by which significant observations are made. Covers electromagnetic and plasma processes from the center of the sun to the surface of the Earth. ESS The Earth Surface 3 Investigates the coupled tectonic and geomorphic processes that shape the surface of the Earth, creates the surface environment that sustains humanity and other life systems, and produces natural hazards.
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Introduces modern tolls, techniques, and theories applicable to analysis of this coupled dynamic system. ESS The Cryosphere 4 Covers snow deposition and metamorphism, avalanches, heat and mass balance at snow and ice surfaces, glacier flow, ice sheets, sea ice, permafrost, methods of paleoclimate reconstruction, and Ice Age theories. Instructors: Waddington, Warren Offered: A. ESS Great Geological Issues 3 History and development of geological and paleontological theories and controversies; philosophy and methodology that have driven scientific inquiry in the earth sciences.
Requires a term paper analyzing primary material. Prerequisite: graduate standing in earth sciences, or in history of science, or permission of instructor. Studies the interactions among land use, infrastructure, and the dynamic landscape of the Pacific Northwest. Includes nine-day intensive, mid-September field course held near Mount Rainier.
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