Environmental Systems (2021): Grades 10, 11, 12

Other Texas Science sets

• Grade K
• Grade 1
• Grade 2 (2021)
• Grade 3
• Grade 4
• Grade 5
• Grade 6
• Grade 7 (2021)
• Grade 8 (2017)
• Grade 8 (2021)
• Biology
• Earth Systems Science (2021)
• Integrated Physics and Chemistry
• Physics
• Specialized Topics in Science
• Aquatic Science (2021)
• Chemistry
• Astronomy
• Astronomy (2021): Grade 12

identify advantages and limitations of models such as their size, scale, properties, and materials;ENV.2.A

analyze data by identifying significant statistical features, patterns, sources of error, and limitations;ENV.2.B

use mathematical calculations to assess quantitative relationships in data; andENV.2.C

evaluate experimental and engineering designs.ENV.2.D

develop explanations and propose solutions supported by data and models consistent with scientific ideas, principles, and theories;ENV.3.A

communicate explanations and solutions individually and collaboratively in a variety of settings and formats; andENV.3.B

engage respectfully in scientific argumentation using applied scientific explanations and empirical evidence.ENV.3.C

analyze, evaluate, and critique scientific explanations and solutions by using empirical evidence, logical reasoning, and experimental and observational testing, so as to encourage critical thinking by the student;ENV.4.A

relate the impact of past and current research on scientific thought and society, including research methodology, cost-benefit analysis, and contributions of diverse scientists as related to the content; andENV.4.B

research and explore resources such as museums, planetariums, observatories, libraries, professional organizations, private companies, online platforms, and mentors employed in a science, technology, engineering, and mathematics (STEM) field in order to investigate STEM careers.ENV.4.C

identify native plants and animals within a local ecosystem and compare their roles to those of plants and animals in other biomes, including aquatic, grassland, forest, desert, and tundra;ENV.5.A

explain the cycling of water, phosphorus, carbon, silicon, and nitrogen through ecosystems, including sinks, and the human interactions that alter these cycles using tools such as models;ENV.5.B

evaluate the effects of fluctuations in abiotic factors on local ecosystems and local biomes;ENV.5.C

measure the concentration of dissolved substances such as dissolved oxygen, chlorides, and nitrates and describe their impacts on an ecosystem;ENV.5.D

use models to predict how the introduction of an invasive species may alter the food chain and affect existing populations in an ecosystem;ENV.5.E

use models to predict how species extinction may alter the food chain and affect existing populations in an ecosystem; andENV.5.F

predict changes that may occur in an ecosystem if genetic diversity is increased or decreased.ENV.5.G

compare and contrast land use and management methods and how they affect land attributes such as fertility, productivity, economic value, and ecological stability;ENV.6.A

relate how water sources, management, and conservation affect water uses and quality;ENV.6.B

document the use and conservation of both renewable and non-renewable resources as they pertain to sustainability;ENV.6.C

identify how changes in limiting resources such as water, food, and energy affect local ecosystems;ENV.6.D

analyze and evaluate the economic significance and interdependence of resources within the local environmental system; andENV.6.E

evaluate the impact of waste management methods such as reduction, reuse, recycling, upcycling, and composting on resource availability in the local environment.ENV.6.F

describe the interactions between the components of the geosphere, hydrosphere, cryosphere, atmosphere, and biosphere;ENV.7.A

relate biogeochemical cycles to the flow of energy in ecosystems, including energy sinks such as oil, natural gas, and coal deposits;ENV.7.B

explain the flow of heat energy in an ecosystem, including conduction, convection, and radiation; andENV.7.C

identify and describe how energy is used, transformed, and conserved as it flows through ecosystems.ENV.7.D

compare exponential and logistical population growth using graphical representations;ENV.8.A

identify factors that may alter carrying capacity such as disease; natural disaster; available food, water, and livable space; habitat fragmentation; and periodic changes in weather;ENV.8.B

calculate changes in population size in ecosystems; andENV.8.C

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.ENV.8.D

analyze and describe how natural events such as tectonic movement, volcanic events, fires, tornadoes, hurricanes, flooding, and tsunamis affect natural populations;ENV.9.A

explain how regional changes in the environment may have global effects;ENV.9.B

examine how natural processes such as succession and feedback loops can restore habitats and ecosystems;ENV.9.C

describe how temperature inversions have short-term and long-term effects, including El Niño and La Niña oscillations, ice cap and glacial melting, and changes in ocean surface temperatures; andENV.9.D

analyze the impact of natural global climate change on ice caps, glaciers, ocean currents, and surface temperatures.ENV.9.E

identify sources of emissions in air, soil, and water, including point and nonpoint sources;ENV.10.A

distinguish how an emission becomes a pollutant based on its concentration, toxicity, reactivity, and location within the environment;ENV.10.B

investigate the effects of pollutants such as chlorofluorocarbons, greenhouse gases, pesticide runoff, nuclear waste, aerosols, metallic ions, and heavy metals, as well as thermal, light, and noise pollution;ENV.10.C

evaluate indicators of air, soil, and water quality against regulatory standards to determine the health of an ecosystem; andENV.10.D

distinguish between the causes and effects of global warming and ozone depletion, including the causes, the chemicals involved, the atmospheric layer, the environmental effects, the human health effects, and the relevant wavelengths on the electromagnetic spectrum (IR and UV).ENV.10.E

evaluate the negative effects of human activities on the environment, including overhunting, overfishing, ecotourism, all-terrain vehicles, and personal watercraft;ENV.11.A

evaluate the positive effects of human activities on the environment, including habitat restoration projects, species preservation efforts, nature conservancy groups, game and wildlife management, and ecotourism; andENV.11.B

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.ENV.11.C

evaluate cost-benefit trade-offs of commercial activities such as municipal development, food production, deforestation, over-harvesting, mining, and use of renewable and non-renewable energy sources;ENV.12.A

evaluate the economic impacts of individual actions on the environment such as overbuilding, habitat destruction, poaching, and improper waste disposal;ENV.12.B

analyze how ethical beliefs influence environmental scientific and engineering practices such as methods for food production, water distribution, energy production, and the extraction of minerals;ENV.12.C

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; andENV.12.D

argue from evidence whether or not a healthy economy and a healthy environment are mutually exclusive.ENV.12.E

describe past and present 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; andENV.13.A

evaluate the goals and effectiveness of past and present international agreements such as the environmental Antarctic Treaty System, the Montreal Protocol, the Kyoto Protocol, and the Paris Climate Accord.ENV.13.B