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architecture sustainable green design challenge



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SCI.11-12.1.A: Science

demonstrate safe practices during laboratory and field investigations, including appropriate first aid responses to accidents that could occur in the field such as insect stings, animal bites, overheating, sprains, and breaks; and

SCI.11-12.1.B: Science

demonstrate an understanding of the use and conservation of resources and the proper disposal or recycling of materials.

SCI.11-12.2.A: Science

know the definition of science and understand that it has limitations, as specified in subsection (b)(2) of this section;

SCI.11-12.2.B: Science

know that scientific hypotheses are tentative and testable statements that must be capable of being supported or not supported by observational evidence. Hypotheses of durable explanatory power which have been tested over a wide variety of conditions are incorporated into theories;

SCI.11-12.2.C: Science

know that scientific theories are based on natural and physical phenomena and are capable of being tested by multiple independent researchers. Unlike hypotheses, scientific theories are well-established and highly-reliable explanations, but may be subject to change as new areas of science and new technologies are developed;

SCI.11-12.2.D: Science

distinguish between scientific hypotheses and scientific theories;

SCI.11-12.2.E: Science

follow or plan and implement investigative procedures, including making observations, asking questions, formulating testable hypotheses, and selecting equipment and technology;

SCI.11-12.2.F: Science

collect data individually or collaboratively, make measurements with precision and accuracy, record values using appropriate units, and calculate statistically relevant quantities to describe data, including mean, median, and range;

SCI.11-12.2.G: Science

demonstrate the use of course apparatuses, equipment, techniques, and procedures, including meter sticks, rulers, pipettes, graduated cylinders, triple beam balances, timing devices, pH meters or probes, thermometers, calculators, computers, Internet access, turbidity testing devices, hand magnifiers, work and disposable gloves, compasses, first aid kits, binoculars, field guides, water quality test kits or probes, soil test kits or probes, 100-foot appraiser's tapes, tarps, shovels, trowels, screens, buckets, and rock and mineral samples;

SCI.11-12.2.H: Science

use a wide variety of additional course apparatuses, equipment, techniques, materials, and procedures as appropriate such as air quality testing devices, cameras, flow meters, Global Positioning System (GPS) units, Geographic Information System (GIS) software, computer models, densiometers, clinometers, and field journals;

SCI.11-12.2.I: Science

organize, analyze, evaluate, build models, make inferences, and predict trends from data;

SCI.11-12.2.J: Science

perform calculations using dimensional analysis, significant digits, and scientific notation; and

SCI.11-12.2.K: Science

communicate valid conclusions supported by the data through methods such as lab reports, labeled drawings, graphic organizers, journals, summaries, oral reports, and technology-based reports.

SCI.11-12.3.A: Science

in all fields of science, analyze, evaluate, and critique scientific explanations by using empirical evidence, logical reasoning, and experimental and observational testing, including examining all sides of scientific evidence of those scientific explanations, so as to encourage critical thinking by the student;

SCI.11-12.3.B: Science

communicate and apply scientific information extracted from various sources such as current events, news reports, published journal articles, and marketing materials;

SCI.11-12.3.C: Science

draw inferences based on data related to promotional materials for products and services;

SCI.11-12.3.D: Science

evaluate the impact of research on scientific thought, society, and the environment;

SCI.11-12.3.E: Science

describe the connection between environmental science and future careers; and

SCI.11-12.3.F: Science

research and describe the history of environmental science and contributions of scientists.

SCI.11-12.4.A: Science

identify native plants and animals using a dichotomous key;

SCI.11-12.4.B: Science

assess the role of native plants and animals within a local ecosystem and compare them to plants and animals in ecosystems within four other biomes;

SCI.11-12.4.C: Science

diagram abiotic cycles, including the rock, hydrologic, carbon, and nitrogen cycles;

SCI.11-12.4.D: Science

make observations and compile data about fluctuations in abiotic cycles and evaluate the effects of abiotic factors on local ecosystems and local biomes;

SCI.11-12.4.E: Science

measure the concentration of solute, solvent, and solubility of dissolved substances such as dissolved oxygen, chlorides, and nitrates and describe their impact on an ecosystem;

SCI.11-12.4.F: Science

predict how the introduction or removal of an invasive species may alter the food chain and affect existing populations in an ecosystem;

SCI.11-12.4.G: Science

predict how species extinction may alter the food chain and affect existing populations in an ecosystem; and

SCI.11-12.4.H: Science

research and explain the causes of species diversity and predict changes that may occur in an ecosystem if species and genetic diversity is increased or reduced.

SCI.11-12.5.A: Science

summarize methods of land use and management and describe its effects on land fertility;

SCI.11-12.5.B: Science

identify source, use, quality, management, and conservation of water;

SCI.11-12.5.C: Science

document the use and conservation of both renewable and non-renewable resources as they pertain to sustainability;

SCI.11-12.5.D: Science

identify renewable and non-renewable resources that must come from outside an ecosystem such as food, water, lumber, and energy;

SCI.11-12.5.E: Science

analyze and evaluate the economic significance and interdependence of resources within the environmental system; and

SCI.11-12.5.F: Science

evaluate the impact of waste management methods such as reduction, reuse, recycling, and composting on resource availability.

SCI.11-12.6.A: Science

define and identify the components of the geosphere, hydrosphere, cryosphere, atmosphere, and biosphere and the interactions among them;

SCI.11-12.6.B: Science

describe and compare renewable and non-renewable energy derived from natural and alternative sources such as oil, natural gas, coal, nuclear, solar, geothermal, hydroelectric, and wind;

SCI.11-12.6.C: Science

explain the flow of energy in an ecosystem, including conduction, convection, and radiation;

SCI.11-12.6.D: Science

investigate and explain the effects of energy transformations in terms of the laws of thermodynamics within an ecosystem; and

SCI.11-12.6.E: Science

investigate and identify energy interactions in an ecosystem.

SCI.11-12.7.A: Science

relate carrying capacity to population dynamics;

SCI.11-12.7.B: Science

calculate birth rates and exponential growth of populations;

SCI.11-12.7.C: Science

analyze and predict the effects of non-renewable resource depletion; and

SCI.11-12.7.D: Science

analyze and make predictions about the impact on populations of geographic locales due to diseases, birth and death rates, urbanization, and natural events such as migration and seasonal changes.

SCI.11-12.8.A: Science

analyze and describe the effects on areas impacted by natural events such as tectonic movement, volcanic events, fires, tornadoes, hurricanes, flooding, tsunamis, and population growth;

SCI.11-12.8.B: Science

explain how regional changes in the environment may have a global effect;

SCI.11-12.8.C: Science

examine how natural processes such as succession and feedback loops restore habitats and ecosystems;

SCI.11-12.8.D: Science

describe how temperature inversions impact weather conditions, including El Niño and La Niña oscillations; and

SCI.11-12.8.E: Science

analyze the impact of temperature inversions on global warming, ice cap and glacial melting, and changes in ocean currents and surface temperatures.

SCI.11-12.9.A: Science

identify causes of air, soil, and water pollution, including point and nonpoint sources;

SCI.11-12.9.B: Science

investigate the types of air, soil, and water pollution such as chlorofluorocarbons, carbon dioxide, pH, pesticide runoff, thermal variations, metallic ions, heavy metals, and nuclear waste;

SCI.11-12.9.C: Science

examine the concentrations of air, soil, and water pollutants using appropriate units;

SCI.11-12.9.D: Science

describe the effect of pollution on global warming, glacial and ice cap melting, greenhouse effect, ozone layer, and aquatic viability;

SCI.11-12.9.E: Science

evaluate the effect of human activities, including habitat restoration projects, species preservation efforts, nature conservancy groups, hunting, fishing, ecotourism, all terrain vehicles, and small personal watercraft, on the environment;

SCI.11-12.9.F: Science

evaluate cost-benefit trade-offs of commercial activities such as municipal development, farming, deforestation, over-harvesting, and mining;

SCI.11-12.9.G: Science

analyze how ethical beliefs can be used to influence scientific practices such as methods for increasing food production;

SCI.11-12.9.H: Science

analyze and evaluate different views on the existence of global warming;

SCI.11-12.9.I: Science

discuss the impact of research and technology on social ethics and legal practices in situations such as the design of new buildings, recycling, or emission standards;

SCI.11-12.9.J: Science

research the advantages and disadvantages of "going green" such as organic gardening and farming, natural methods of pest control, hydroponics, xeriscaping, energy-efficient homes and appliances, and hybrid cars;

SCI.11-12.9.K: Science

analyze past and present local, state, and national legislation, including Texas automobile emissions regulations, the National Park Service Act, the Clean Air Act, the Clean Water Act, the Soil and Water Resources Conservation Act, and the Endangered Species Act; and
Curriki Rating
On a scale of 0 to 3
On a scale of 0 to 3

This resource was reviewed using the Curriki Review rubric and received an overall Curriki Review System rating of 3, as of -0001-11-30.

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This resource received a 3* rating because it is part of Today's Lesson: Better Classroom Design, which received a rating of 3-Exemplary in the Curriki Review System and which you can see here: http://www.curriki.org/xwiki/bin/view/Coll_Group_ArchitectureforHumanitysPortableClassroomChallenge/DesigningtheClassroomoftheFuture_0

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