GEOGRAPHY
Denver Public Schools
Content Standards
Standards for Success
Geography Standards Internet Links
Everything exists in space. Geography's* concern is space. Geography* uses a spatial perspective* to study the location*, arrangement, and interaction of people, places*, and environments* over Earth* space*. By understanding and using the spatial perspective* geography* offers, students can study facts, issues, and ideas in depth.
People everywhere have a need to know about the nature of their world, beginning with themselves. Therefore, geography* has to do with both asking questions and solving problems, as well as memorizing facts. Geography* is composed of three interrelated and inseparable components: knowledge, skills, and perspectives. Investigating the geographic dimension of human experience begins with asking the following:
· Where is it?
· Why is it there?
· How and why does it affect the people in this place?
· In what other places* do people confront this issue?
· How and why are these places* related?
· What alternatives do people have to improve their situation?
The answers to these and other questions constitute geography*.
The Purpose of Geography* Education
Geography* education fosters the development of citizens who actively seek to apply the knowledge, perspectives, and skills of geography* in life situations. Geography* education must be responsive to meet the needs of students, as well as the societal and workplace requirements of the community, nation, and world. Through rigorous instruction and an adaptable K-12 curriculum, geography* education helps prepare students to cope with the complexities of contemporary life. Geography* serves as the bridge between the physical and the social sciences. The study of geography* should give students a firm grasp of the place and terrain that surrounds them; the patterns of human development around the world; and the interactions of peoples, places*, and environments*.
The need for geographic knowledge is increasing. Technological advances and greater international trading force citizens to have a fuller knowledge of economic, political, social, and environmental issues around the world. The increased economic power and initiatives of other nations, changes in international politics and policies, and the ability of other nations to affect worldwide environmental quality validate the need for United States' students to be internationally competent 21st-century voters, workers, parents, and leaders.
Even though the geography standards are defined separately from the other disciplines, they are not meant to be taught in isolation. Educators are encouraged to integrate the content of the geography standards with other content standards.
The DPS geography standards do not include all of the significant content found in the curriculum of the Denver Public Schools. It is meant to be a description of the discipline of geography for every student in the district. Individual school sites and teachers must continue to use their best judgement in the inclusion of subject matter and in a delivery system appropriate to their population. In DPS geography is included under the rubric of social studies with history, economics, and civics. The standards reflect the major principles and concepts of the discipline of geography that spans a student's education from grade K-12.
The Geographically Informed Person
These geography* standards seek to foster the development of a geographically informed person. This means being knowledgeable about people, places*, and environments* and being able to apply that knowledge. Geographically informed citizens understand the many interdependent spheres in which they live and make informed judgments to improve their community, state, country, and world. To meet the challenges of the future, a geographically informed citizen should be able to
· know and understand facts, concepts, and generalizations about geography*;
· apply geographic skills to observe, gather, organize, analyze, and present information; and
· use geographic perspectives to evaluate, make decisions about, and report on issues, processes, and events.
Geography* Content Standards
The geography* content standards that follow outline what students should know and be able to do. They integrate geographic knowledge, skills, and perspectives that will remain useful throughout life. The essential skills of asking geographic questions; acquiring, presenting, and analyzing geographic information; and developing and testing geographic generalizations are reflected in the content standards and are worth practicing and mastering.
The geography* standards are arranged in an orderly progression from conceptually simple to complex and from acquisition of basic knowledge to the synthesis and application of knowledge. They move from basic tools and locational information in Standard 1 to the fundamental concepts of physical and human geography* in Standards 2-4. Then, Standard 5 brings the human and physical systems* together to examine their interrelationships. Finally, content from Standards 1-5 is brought together and applied to practical problems in Standard 6. Standard 7 addresses the use of technologies that will help students learn and apply geographic knowledge, skills, and perspectives.
Geography* Content Standards
3. Students understand how physical processes* shape Earth's* surface patterns* and systems*.
1. Students know how to use and construct maps and other geographic tools* to locate and derive information about people, places*, and environments*.
1.1 Students know how to use maps and other geographic tools to acquire, process, and report information from a spatial perspective*.
1.2 Students develop knowledge of Earth* to locate people, places*, and environments*.
1.3 Students know how to analyze the dynamic spatial organization* of people, places*, and environments*.
Rationale: Seeing the world geographically requires an understanding of various tools to be able to interpret and make maps; recognize relationships in and among places*; make generalizations; and understand the concepts of distance, direction, location, connection, and association. These abilities and concepts are basic to what makes geography* uniquethe spatial perspective*.
Maps, globes, photographs, satellite images*, and geographic information systems* (GIS) are examples of geographic tools. They are essential to portraying, analyzing, evaluating, and predicting human and physical patterns and processes on Earth's* surface. They play a critical role in helping people make sense of a complex world, and they improve human capacity to move about and plan activities.
Developing locational knowledgefor example, knowing where places* are and why they are thereis also a part of being a geographically informed person. Locational knowledge is developed through both academic learning and personal experience. This knowledge, developed through factual learning, serves as a personal framework for objective and personal geographic knowledge. Geographic images and the impressions students have of places* are organized by these personal frameworks.
Geographic literacy also demands an understanding of how space on Earth* is organized. To understand spatial organization* requires observation and analysis as well as an awareness that the patterns observed on Earth's* surface reflect geographic processes.
The concepts of distance, direction, location, connection, and association help explain how space is arranged on Earth*. Other geographic concepts explain the size and locations of settlements, the connections* or lack of connections* between and among locations, and the interchange of people, ideas, and goods. The ability to organize and process symbols, pictures, graphs, and objects visually provides a foundation for workplace readiness.
1.1 Students know how to use maps and other geographic tools to acquire, process, and report information from a spatial perspective*.
GRADES K-4
In grades K-4, what students know and are able to do includes
· identifying the characteristics and purposes of maps, globes, and other geographic tools;
· reading and interpreting information from photographs, maps, globes, graphs, models, and computer programs, if available; and
· displaying information on maps, globes, and geographic models* and in graphs, diagrams, and charts (for example, designing map keys* and legends*).
GRADES 5-8
As students in grades 5-8 extend their knowledge, what they know and are able to do includes
· explaining the characteristics and purposes of and explaining differences among maps, globes, aerial photographs*, geographic models, and satellite images*;
· identifying several basic types of map projections* (for example, Mercator* and Robinson Projections*); and
· interpreting and constructing maps, globes, models, charts, and geographic databases* using fundamental cartographic* principles.
GRADES 9-12
As students in grades 9-12 extend their knowledge, what they know and are able to do includes
· selecting appropriate maps, map projections*, and other graphic representations to analyze geographic problems;
· constructing maps by using fundamental cartographic* principles, including translating narratives about places* and events into graphic representations;
· interpreting maps and other geographic tools, through the analysis of case studies*, and using data; and
· using geographic tools to represent and interpret Earth's* physical and human systems*.
1.2 Students develop knowledge of Earth* to locate people, places*, and environments*.
GRADES K-4
In grades K-4, what students know and are able to do includes
· identifying major geographic features;
· locating places* within their own and nearby communities in Denver and in Colorado;
· locating Colorado in relation to the United States and the rest of the world;
· drawing a map of continents and oceans; and
· identifying a specific location on a map by using grids.
GRADES 5-8
As students in grades 5-8 extend their knowledge, what they know and are able to do includes
· identifying and locating each of the fifty states in the United States;
· drawing an accurate map from memory to answer questions about the location of physical and human features* (for example, given an incomplete map of Europe and Africa, sketch in the borders of the countries around the Mediterranean Sea);
· identifying and locating physical and human features* in their own community and nearby places*, in the United States, and in regions* of the world; and
· locating places* using relative location*, latitude,* and longitude*.
GRADES 9-12
As students in grades 9-12 extend their knowledge, what they know and are able to do includes
· drawing a complex and accurate map from memory to answer questions about the location of human and physical features;
· identifying and locating physical and human features* in their own and nearby communities, in the United States, and in regions* of the world (for example, rivers, mountains, regions*, and countries); and
· analyzing maps people make from memory of the same place to determine similarities and differences.
1.3 Students know how to analyze the dynamic spatial organization* of people, places*, and environments*.
GRADES K-4
In grades K-4, what students know and are able to do includes
· using appropriate words and diagrams to define basic geographic vocabulary such as the concepts of location, direction, distance, scale*, movement*, and region*;
· describing how places* are connected by the movement* of goods and services, ideas and people; and
· making and defending locational decisions for human activity (for example, where one would locate a new piece of playground equipment).
GRADES 5-8
As students in grades 5-8 extend their knowledge, what they know and are able to do includes
· explaining fundamental geographic vocabulary such as the concepts of distance, latitude*, longitude*, interdependence*, accessibility*, and connections*;
· analyzing the factors affecting the location of human activities (for example, the location of a planned development or dam);
· explaining different land use* patterns in urban, suburban, and rural areas;
· describing patterns and processes of diffusion* (for example, information networks around the world); and
· solving locational questions requiring the integration of information from two or more sources.
GRADES 9-12
As students in grades 9-12 extend their knowledge, what they know and are able to do includes
· analyzing geographic information on a variety of scaleslocal, national, international (for example, growth issues in Denver, New York City, and Southeast Asia);
· analyzing patterns of distribution* and organization of settlements; and
· analyzing patterns and processes of the diffusion* of human activities.
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2. Students know the physical* and human characteristics* of places* and use this knowledge to define and study regions* and their patterns of change.
2.1 Students know the physical and human characteristics* of places*.
2.2 Students know how and why people define regions*.
2.3 Students know how culture* and experience influence people's perceptions* of places* and regions*.
Rationale. Knowledge of place helps people make informed decisions about where to live, work, travel, and seek new opportunities. Places* form and change as a result of physical and human processes*. The physical characteristics* of a place are caused by the long-term interaction among natural processes*. These processes produce the landforms*, bodies of water, air, soils, vegetation, animal life, and climate* on which human life depends. The human characteristics* of a place result from the interaction of human processes*. These processes produce particular settlement patterns*, political systems*, architecture, commerce, and other activities and enterprises.
Regions* are areas that display similarity in terms of selected criteria. Regions* are created to clarify the complexity of human and physical features on the Earth's* surface. Regions* are geographic generalizations that portray broader patterns* from great and often confusing detail. Studying how and why regions* change helps people understand and interpret the past, participate responsibly in the present, and plan effectively for the future.
The way people think about places* and regions* varies according to how they organize, interpret, and use information. Personal attitudes, experiences, and judgments are important in shaping these variations. Differences in cultural background, age, gender, and experiences contribute to the perceptions* people have about places* and regions*. Understanding places* and regions* helps one appreciate different perspectives and develop the cooperation needed to resolve conflict.
2.1 Students know the physical and human characteristics* of places*.
GRADES K-4
In grades K-4, what students know and are able to do includes
· identifying and classifying the characteristics of places* as human or physical (for example, hills and rivers are physical characteristics* and buildings and roads are human characteristics*); and
· describing how human and physical processes* together shape places* (for example, reforestation may prevent erosion* on slopes in Colorado).
GRADES 5-8
As students in grades 5-8 extend their knowledge, what they know and are able to do includes
· describing human and physical characteristics* of places* (for example, the human-added parts of landscape found in a national park); and
· explaining how places* change due to human activity (for example, center-pivot irrigation* produces a distinctive cultivation pattern.)
GRADES 9-12
As students in grades 9-l2 extend their knowledge, what they know and are able to do includes
· analyzing the human and physical characteristics* that give a place meaning and significance; and
· describing the changing human and physical characteristics* of places*.
2.2 Students know how and why people define regions*.
GRADES K-4
In grades K-4, what students know and are able to do includes
· identifying a region* as an area with unifying geographic characteristics; and
· describing similarities, differences, and patterns of change in regions*.
GRADES 5-8
As students in grades 5-8 extend their knowledge, what they know and are able to do includes
· identifying a region* by defining its distinguishing characteristics;
· explaining how and why regions* change;
· describing the relationships and interactions among regions*; and
· analyzing the influences and effects of regional labels and images (for example, Front Range supports a large and growing population).
GRADES 9-12
As students in grades 9-12 extend their knowledge, what they know and are able to do includes
· applying the concept of region* to organize the study of a geographic issue using multiple criteria; and
· analyzing changes in regions* and recognizing the patterns of those changes (for example, the Caribbean Basin's transition from a major sugar cane producer to a center for tourism).
2.3 Students know how culture* and experience influence people's perceptions* of places* and regions*.
GRADES K-4
In grades K-4, what students know and are able to do includes
· identifying ways in which different people view and relate to places* and regions* (for example, how children, joggers, and city park workers view a park.)
GRADES 5-8
As students in grades 5-8 extend their knowledge, what they know and are able to do includes
· describing various perspectives associated with places* and regions*;
· explaining how culture* and technology* affect perception* of places* and regions* (for example, United States television programs and movies present images of the United States to billions of people around the world); and
· explaining how places* and regions* serve as cultural symbols (for example, Jerusalem as a sacred place* for Christians, Jews, and Muslims).
GRADES 9-12
As students in grades 9-12 extend their knowledge, what they know and are able to do includes
· analyzing why places* and regions* are important to human identity;
· comparing and contrasting the various views held of a place by different groups in society;
· explaining how and why groups in society view places* and regions* differently; and
· analyzing the ways places* and regions* reflect cultural change (for example, old mining towns become tourist centers).
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3. Students understand how physical processes* shape Earth's* surface patterns* and systems*.
3.1 Students know the physical processes* that shape the Earth's* surface patterns*.
3.2 Students know the characteristics and distributions* of physical systems* of land, air, water, plants, and animals.
Rationale. Processes of nature create the natural environments* upon which human life depends. Understanding Earth's* natural or physical features and the processes that produce them is essential to the study of human life on Earth*. It is therefore essential to know the characteristics of landforms*, soils, bodies of water, vegetation, animal life, weather, and climate* and how these characteristics are distributed over the Earth's* surface.
There are a variety of physical processes*, such as weathering*, erosion*, and vegetation change, that shape the environment* over time and space. These processes and their associated patterns* can be explained by concepts such as system*, boundary*, force, threshold*, and equilibrium*.
Climates*, landforms*, and soils are physical systems*. An ecosystem*a complex physical system*is an interdependent association of plants, animals, air, water, and land. Ecosystems* form distinct regions* within the biosphere* that vary in size, shape, and complexity. Understanding the nature and distribution* of ecosystems* and the influences of physical processes* throughout the environment* is crucial to understanding the role of humans within the physical world.
3.1 Students know the physical processes* that shape the Earth's* surface patterns*.
GRADES K-4
In grades K-4, what students know and are able to do includes
· identifying the components of the Earth's* physical systems* and their characteristics (for example, the features of air, land, water, plants, and animals);
· explaining how Earth-sun relationships* shape climate* and vegetation patterns (for example, as compared with other regions*, polar regions* receive low amounts of the sun's energy and thus support little vegetation); and
· describing how features on the Earth's* surface are shaped by physical processes* (for example, wet regions* have many rivers).
GRADES 5-8
As students in grades 5-8 extend their knowledge, what they know and are able to do includes
· describing how physical processes* shape environmental patterns of air, land, water, plants, and animals;
· explaining how physical processes* influence the formation and location of resources*;
· describing the consequences of physical processes* on the Earth's* surface (for example, tropical ocean heating supplies energy for hurricanes); and
· explaining how Earth-sun relationships* produce day and night, time zones, seasons, and major climatic variations.
GRADES 9-12
As students in grades 9-12 extend their knowledge, what they know and are able to do includes
· identifying the dynamics of the four basic components of the Earth's* physical systems*: the atmosphere*, biosphere*, lithosphere*, and hydrosphere*;
· explaining the interaction of the Earth's* physical systems* (for example, the interaction of climate* and ocean water as exemplified by El Niño); and
· explaining the variation in the effects of physical processes* across the Earth's* surface (for example, the effects of wind variations in shaping landforms*).
3.2 Students know the characteristics and distributions* of physical systems* of land, air, water, plants, and animals.
GRADES K-4
In grades K-4, what students know and are able to do includes
· identifying characteristics of physical systems* (for example, water cycle);
· describing local environmental features and identifying the physical system* to which they belong (for example, a lake which is part of the water cycle); and
· comparing patterns and distribution* of environments* within a physical system* (for example, groups of plant and animal life found in Colorado).
GRADES 5-8
As students in grades 5-8 extend their knowledge, what they know and are able to do includes
· describing how ecosystems* work; and
· identifying the local and world patterns of ecosystems*.
GRADES 9-12
As students in grades 9-12 extend their knowledge, what they know and are able to do includes
· explaining the importance of ecosystems* in understanding the environment*;
· explaining the factors that affect the distribution* and characteristics of ecosystems*; and
· analyzing the diversity and productivity of ecosystems*.
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4. Students understand how economic, political, cultural, and social processes* interact to shape patterns of human populations, interdependence*, cooperation, and conflict.
4.1 Students know the characteristics, location, distribution*, and migration of human populations.
4.2 Students know the nature and spatial distribution* of cultural patterns.
4.3 Students know the patterns and networks of economic interdependence*.
4.4 Students know the processes, patterns, and functions of human settlement.
4.5 Students know how cooperation and conflict among people influence the division and control of Earth's* surface.
Rationale: People are central to geography* in that human activities help shape Earth's* surface. Human settlements and structures are part of the Earth's* surface, and humans compete for control of the Earth's* surface. The geographic study of human populations focuses on location, movement*, and the dynamics of size. Populations tend to locate in clusters rather than spread out evenly over the land surface; these patterns depend on both physical and human environments*. People make long-term, permanent migrations and short-term, temporary journeys, often on a daily basis. Migration is often the result of the way people perceive a place. Population growth, decline, and equilibrium* patterns are influenced by medical, cultural, and economic issues.
Culture* defines every human society because it encompasses identity, purpose, place, and vision. Culture* has meaning beyond a single group in a specific place. The study of the locations, spatial* patterns, and processes of cultures* provides a means to analyze how people interact with each other and with their environments*. Culture* is a force that can both unify and impede connections* and communication among peoples.
In the developed, urbanized, and industrialized countries, economic systems* are complex, fast moving, and technologically dependent. Developing countries have vast, unstructured urban areas surrounded by traditionally based rural areas. Economic interdependence* links the developed and the developing countries.
Settlements, whether rural or urban, have many identifiable patterns, such as architecture, sacred space, and economic activities. Settlement patterns* reflect changing cultural attitudes toward place as well as shifts in technology*, population, and resource* use.
Earth* space is divided into political, economic, social, and cultural spaces, ranging in scale from local to global. Political spaces, which are created by both cooperation and conflict, may be as small as the school attendance zone or as large as an alliance among nations. Economic space includes a firm's marketing regions* and international trading blocs. Social and cultural spaces range from households to the administrative regions* of world religions. The partitioning of space into social, economic, and political spheres of influence is dynamic and ongoing.
4.1 Students know the characteristics, location, distribution*, and migration of human populations.
GRADES K-4
In grades K-4, what students know and are able to do includes
· identifying the distribution* of population, both locally and in other parts of the world;
· identifying the characteristics of populations, both locally and in other parts of the world; and
· identifying the causes of human migration (for example, moving because Mom gets a better job in another city).
GRADES 5-8
As students in grades 5-8 extend their knowledge, what they know and are able to do includes
· describing the demographic* structure of a population (for example, the age-sex structure as shown in a population pyramid *);
· explaining reasons for variation in population distribution*; and
· analyzing the causes and types of human migration and its effect on places*.
GRADES 9-12
As students in grades 9-12 extend their knowledge, what they know and are able to do includes
· evaluating trends and effects of world population numbers and patterns; and
· analyzing the physical and cultural impact of human migration.
4.2 Students know the nature and spatial distribution* of cultural patterns.
GRADES K-4
In grades K-4, what students know and are able to do includes
· identifying how the elements of culture* affect the ways in which people live; and
· describing how patterns of culture* vary across the Earth's* surface (for example, using thematic maps * to show patterns of language, religion, and types of housing in a community).
GRADES 5-8
As students in grades 5-8 extend their knowledge, what they know and are able to do includes
· explaining the spatial distribution* of cultures*, both locally and in other parts of the world;
· describing how cultures* and cultural landscapes* change; and
· comparing and contrasting elements of different cultural landscapes*.
GRADES 9-12
As students in grades 9-12 extend their knowledge, what they know and are able to do includes
· analyzing how cultures* shape the character of a region* (for example, missions reflect the important role of Christianity in the Spanish Southwest);
· describing the processes of cultural diffusion*; and
· describing the effect of technology* on the development and change of cultures*.
4.3 Students know the patterns and networks of economic interdependence*.
GRADES K-4
In grades K-4, what students know and are able to do includes
· identifying the location and distribution* of major economic activities in Colorado; and
· describing economic networks used in daily life (for example, transportation and communication networks).
GRADES 5-8
As students in grades 5-8 extend their knowledge, what they know and are able to do includes
· identifying the factors that influence the location and distribution* of economic activities;
· explaining why and how countries trade goods and services;
· explaining reasons for patterns of economic activities on the Earth's* surface; and
· explaining how changes in technology*, transportation, communication, and resources* affect the location of economic activities.
GRADES 9-12
As students in grades 9-12 extend their knowledge, what they know and are able to do includes
· comparing and contrasting the characteristics and distribution* of economic systems*;
· explaining how places* of various size function as centers of economic activity;
· analyzing factors influencing economic interdependence* of countries, including world trade;
· analyzing connections* among local, regional, and world economies (for example, transportation routes, movement* patterns, and market areas); and
· analyzing how and why levels of economic development vary among places*.
4.4 Students know the processes, patterns, and functions of human settlement.
GRADES K-4
In grades K-4, what students know and are able to do includes
· classifying the types and patterns of settlements;
· identifying the factors that affect where people settle (for example, the availability of transportation and resources*); and
· describing the spatial* characteristics of cities (for example, residential, recreational, central business district, industrial, commercial areas).
GRADES 5-8
As students in grades 5-8 extend their knowledge, what they know and are able to do includes
· explaining the causes and effects of urbanization* (for example, rural-to-urban migration leads to urbanization*); and
· describing, locating, and comparing different settlement patterns* throughout the world.
GRADES 9-12
As students in grades 9-12 extend their knowledge, what they know and are able to do includes
· analyzing the size, arrangement, structure, and function of urban areas;
· comparing and contrasting the differing characteristics of settlement in developing and developed countries; and
· examining how and why large cities grow together (for example, the transformation of the large cities of the east coast into one large, megalopolis* stretching from Washington, D.C. to Boston).
4.5 Students know how cooperation and conflict among people influence the division and control of Earth's* surface.
GRADES K-4
In grades K-4, what students know and are able to do includes
· describing how and why people create boundaries; and
· describing how cooperation and conflict affect neighborhoods and communities.
GRADES 5-8
As students in grades 5-8 extend their knowledge, what they know and are able to do includes
· describing how cooperation and conflict among people contribute to political, economic, and social divisions of Earth's* surface; and
· describing the forces and processes of cooperation that unite people across Earth's* surface (for example, the nations of Western Europe have joined together in the European Union).
GRADES 9-12
As students in grades 9-12 extend their knowledge, what they know and are able to do includes
· analyzing why and how cooperation and conflict are involved in shaping the distribution* of social, political, and economic spaces on Earth* at different scaleslocal, national, and international; and
· analyzing how differing points of view and self-interests play a role in conflict over territory and resources*.
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5. Students understand the effects of interactions between human* and physical systems* and the changes in meaning, use, distribution*, and importance of resources*.
5.1 Students know how human actions modify the physical environment*.
5.2 Students know how physical systems* affect human systems*.
5.3 Students know the changes that occur in the meaning, use, location, distribution*, and importance of resources*.
Rationale. Human use of resources* can have both positive and negative effects. Increasingly, people are called upon to solve complex problems resulting from the interaction of human and physical systems*. Physical systems* offer opportunities and constraints for human activity. Humans control and use the output of physical systems*natural resources*to get food and shelter needed to survive and prosper; natural resources* provide food and shelter. Agriculture, the foundation of civilizations, is perhaps the most massive alteration of physical systems*. Humans sometimes face the consequences of exceeding their environment's* capacity and resource* base. Changes to the environment* created by humans play a significant role in shaping local, global, economic, social, and political conditions.
The concept of resources* has changed over time in much of the world. Initially, when populations were smaller, resources* were assumed to exist in abundance and were available for almost limitless use. The concept of preservation did not evolve until some resources* appeared to be in short supply. Unwise resource* use can negatively affect the environment* and quality of life. Responsible resource* use can enhance the environment* and quality of life.
Humans interact with the environment* through technology*. Technology* has enabled us to use some natural resources* at ever-increasing, possibly unsustainable, rates. But new technologies also change our perception* of resources*. (For example, nuclear reactors now generate a substantial portion of the world's electricity and previously discarded materials are now recycled.)
5.1 Students know how human actions modify the physical environment*.
GRADES K-4
In grades K-4, what students know and are able to do includes
· identifying how people depend upon, adapt to, and modify the physical environment*.
GRADES 5-8
As students in grades 5-8 extend their knowledge, what they know and are able to do includes
· describing how human modifications of physical environments* in one place often lead to changes in other places*;
· explaining the role of technology* in the human modification of the physical environment* (for example, damming of the Colorado River, greening of the Negev Desert in Israel); and
· describing ways that humans depend upon, adapt to, and affect the physical environment*.
GRADES 9-12
As students in grades 9-12 extend their knowledge, what they know and are able to do includes
· analyzing ways that humans depend upon, adapt to, and affect the physical environment*;
· evaluating ways in which technology* has expanded human capacity to modify the physical environment*; and
· explaining the possible global effects of human modification of the physical environment*.
5.2 Students know how physical systems* affect human systems*.
GRADES K-4
In grades K-4, what students know and are able to do includes
· describing how the physical environment* provides opportunities for and places* limits on human activities.
GRADES 5-8
As students in grades 5-8 extend their knowledge, what they know and are able to do includes
· explaining how the characteristics of different physical environments* provide opportunities for or place limits on human activities; and
· describing how natural hazards* affect human activities.
GRADES 9-12
As students in grades 9-12 extend their knowledge, what they know and are able to do includes
· comparing and contrasting how changes in the physical environment* can increase or diminish its capacity to support human activity;
· identifying and evaluating alternative strategies to respond to limits placed on human systems* by the physical environment* (for example, the use of irrigation in arid environments*); and
· analyzing how humans perceive and react to natural hazards*.
5.3 Students know the changes that occur in the meaning, use, location, distribution*, and importance of resources*.
GRADES K-4
In grades K-4, what students know and are able to do includes
· describing the role of resources* in daily life (for example, discussing the recycling of materials);
· identifying the characteristics of renewable* and nonrenewable resources*; and
· identifying the spatial distribution* of resources*.
GRADES 5-8
As students in grades 5-8 extend their knowledge, what they know and are able to do includes
· describing the role of resources* in daily life (for example, discussing the recycling of materials);
· describing the worldwide distribution* and use of resources*;
· identifying how technology* affects the definition of, access to, and use of resources*;
· describing why people have different viewpoints with respect to resource* use;
· explaining the fundamental role of energy resources*; and
· describing ways that resources* can be recycled.
GRADES 9-12
As students in grades 9-12 extend their knowledge, what they know and are able to do includes
· analyzing how the changing distribution* of resources* affects the patterns of settlement;
· evaluating policies and programs for resource* use and management; and
· analyzing the effects of economic activity in modifying and transforming resources*.
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6. Students apply knowledge of people, places*, and environments* to understand the past and present and to plan for the future.
6.1 Students know how to apply geography* to understand the past.
6.2 Students know how to apply geography* to understand the present and plan for the future.
Rationale. This standard deals with the application of geographic knowledge, skills, and perspectives to practical problems. Everything happens in time and space. Therefore, a thorough interpretation of the past must include the geographic context of the event. This requires addressing questions such as: Where did the event occur? In what kind of human and physical environment* did it happen? How was the event related to events in other places*? What resources* and technologies did people have? How did they move from place to place? What environmental constraints did they face? Any interpretation of human events and conditions that ignores the geographic context is incomplete and unrealistic.
In the next century, humans will face many complex and controversial issues concerning the needs of a rapidly growing human population and the Earth's* ability to sustain that population. To cope with these fundamental issues effectively, tomorrow's citizens must be geographically informed.
6.1 Students know how to apply geography* to understand the past.
GRADES K-4
In grades K-4, what students know and are able to do includes
· describing how places* change over time; and
· describing how places* and environments* may have influenced people and events over time.
GRADES 5-8
As students in grades 5-8 extend their knowledge, what they know and are able to do includes
· describing changes in the spatial organization* of a society over time;
· describing how places* and environments* have influenced events and conditions in the past; and
· explaining how differing perceptions* of places*, people, and resources* have affected events and conditions in the past.
GRADES 9-12
As students in grades 9-12 extend their knowledge, what they know and are able to do includes
· analyzing how changing perceptions* of places* and environments* affect the behavior of people; and
· analyzing the fundamental role that places* and environments* have played in history (for example, the Russian winter played an important part in the defeat of Napoleon's army).
6.2 Students know how to apply geography* to understand the present and plan for the future.
GRADES K-4
In grades K-4, what students know and are able to do include
· describing issues in communities from a spatial perspective*; and
· identifying personal behaviors that can affect community planning.
GRADES 5-8
As students in grades 5-8 extend their knowledge, what they know and are able to do includes
· explaining issues in communities from a spatial perspective*; and
· explaining a contemporary issue using geographic knowledge, skill, and perspectives.
GRADES 9-12
As students in grades 9-12 extend their knowledge, what they know and are able to do includes
· evaluating a contemporary issue using geography* knowledge, skills, and perspectives; and
· comparing and contrasting how different viewpoints influence the development of policies designed to use and manage the Earth's* resources*.
Back To Geography Standards List
STANDARD 7: Students apply the process of geographic inquiry examining issues by using geographic skills and appropriate technologies to ask and answer geographic questions.
7.1 Students know how to compile and use primary (fieldwork) and secondary (texts, maps, computer databases, etc.) information* to acquire geographic information in order to answer geographic questions.
7.2 Students know how to organize and display geographic information using appropriate technologies to answer geographic questions.
7.3 Students know how to analyze geographic information to recognize patters, relationships, and connections, using appropriate technologies to answer geographic questions.
Rationale. Geographic skills provide the necessary tools and techniques for us to think geographically. They are central to geography's distinctive approach to understanding physical and human patterns and processes on Earth. We use geographic skill when we make decisions important to our well-beingwhere to buy or rent a home; where to get a job; how to get to work or a friend's house, where to shop, vacation, or go to school. All of these decisions involve the ability to acquire, arrange, and use geographic information. Daily decisions and community activities are linked to thinking systematically about environmental and societal issues. Community decisions relating to problems of air, water, and land pollution or locational issues, such as where to place industries, schools, and residential areas, also require the skillful use of geographic information. Business and government decisions, from the best site for a supermarket or a regional airport to issues of resource use, or international trade, involve the analysis of geographic data.
It is essential that students develop the skills that will enable them to observe patterns, associations, and spatial order. Many of the skills that students are expected to learn involve the use tools and technologies that are part of the process of geographic inquiry. Maps are essential tools of geography because they assist in the visualization of space.
Other tools and technologies, such as satellite - produced images, graphs, sketches, diagrams, and photographs are also integral parts of geographic analysis. The rate of growth of an urban area for example, can be observed by comparing old and new photographs. Large-scale land -use changes can be made clear by comparing images taken over a period of years.
Many of the capabilities that students need to develop geographic skills are termed critical thinking skills. Such skills are not unique to geography and involve a number of generic thinking process, such as knowing, inferring, analyzing, judging, hypothesizing, generalizing, predicting, and decision-making. These have application to all levels of geographic inquiry and constitute the bases on which students can build competencies in applying geographic skills to geographic inquiry.
Geographic skills help us make reasoned political decisions. Whether the issues involve the evaluation of foreign affairs and international economic policy or local zoning and land use, the skills enable us to collect and analyze information, come to an informed conclusion, and make reasoned decisions on a course of action. Geographic skills also aid in the development and presentation of effective, persuasive arguments for and against matters of public policy.
GRADES K-4
In grades K-4, what students know and are able to do includes
· locating, gathering, and identifying information from a variety of primary and secondary sources including maps and appropriate technologies; and
· making and recording observations about the physical and human characteristics of places.
GRADES 5-8
As students in grades 5-8 extend their knowledge, what they know and are able to do includes
· using a variety of research skills to locate and collect geographic data, including that data available using available technologies:
· using maps from a variety of sources (atlases, government publications, geographic information systems, etc.) to collect and/or compile geographic information; and
· observing the physical and human characteristics of places on the basis of fieldwork.
GRADES 9-12
As students in grades 9-12 extend their knowledge, what they know and are able to do includes
· locating, gathering and processing geographic information from a variety of primary and secondary sources including maps and appropriate technologies; and
· assessing the value and use of geographic information.
7.2 Students know how to organize and display geographic information using appropriate technologies to answer geographic questions.
GRADES K-4
In grades K-4, what students know and are able to do includes
· preparing maps to display geographic information, using technology; and
· constructing graphs, table and diagrams to display geographic information using technology.
GRADES 5-8
As students in grades 5-8 extend their knowledge, what they know and are able to do includes
· preparing various forms of maps and graphs, including using appropriate technologies, as a means of organizing geographic information;
· preparing various forms of diagrams, tables and charts, including using appropriate technologies, as a means of organizing geographic information; and
· integrating various types of materials, including the use of technology, to organize geographic information.
GRADES 9-12
As students in grades 9-12 extend their knowledge, what they know and are able to do includes
· selecting and designing appropriate forms of maps, graphs, diagrams, tables, and charts using traditional methods, as well as employing the use of technology, to organize graphic information; and
· using a variety of media to develop and organize integrated summaries of geographic information.
7.3 Students know how to analyze geographic information to recognize patterns, relationships, and connections, using appropriate technologies to answer geographic questions.
GRADES K-4
In grades K-4, what students know and are able to do includes
· observing and interpreting geographic relationships using maps, tables, and graphs:
· observing and interpreting geographic trends and relationships using texts, photographs, and documents: and
· using simple mathematics to analyze geographic data (for example, plot average rainfall for different regions in Colorado).
GRADES 5-8
As students in grades 5-8 extend their knowledge, what they know and are able to do includes
· interpreting information obtained from maps, aerial photographs, satellite-produced images, and geographic information systems:
· using statistics and other quantitative techniques to evaluate geographic information (for example, preparing diagrams to observe relationships between the number of Asian food restaurants and percentage of immigrants from Asia); and
· interpreting and synthesizing information obtained from a variety of sources - graphs, charts, tables, diagrams, tests, photographs, documents, interviews, appropriate computer technologies.
GRADES 9-12
As students in grades 9-12 extend their knowledge, what they know and are able to do includes
· analyzing and interpreting geographic information using quantitative methods of analysis, (for example, develop an index of the physical quality of life to support a classification system of countries by standard-of-living categories); and
· making inferences and drawing conclusions from maps and other geographic representation, (for example, comparing data on soil-nutrient deficiencies and crop yield to determine their relationship).
Back To Geography Standards List
Glossary
Accessibility-the relative ease with which a place can be reached from other places.
Aerial (air) photograph-a photograph of part of Earth's surface usually taken from an airplane.
Atmosphere-the envelope of gases, aerosols, and other materials that surrounds Earth and is held close by gravity. The gases are dominated by nitrogen, oxygen, argon, and carbon dioxide and include much smaller percentages of helium, methane, and hydrogen.
Biosphere-the realm of Earth that includes all plant and animal life forms.
Boundary-the limit or extent within which a system exists or functions, including a social group, a state, or physical feature.
Cartographic-pertaining to the design and creation of maps and other geographic representations.
Case study-the in-depth examination of a geographic issue in a particular place.
Climate-long-term trends in weather elements and atmospheric conditions.
Center-pivot irrigation-the use of large sprinklers that distribute irrigation water in a circle, which results in large circular irrigated field patterns.
Connections-linkages between places.
Culture-learned behavior of people, which includes their belief systems and languages, their social relationships, their institutions and organizations, and their material goods-food, clothing, buildings, tools, and machines.
Cultural diffusion-the spread of cultural elements from one culture to another.
Cultural landscape-the human imprint on the physical environment; the humanized landscape as created or modified by people.
Database-a compilation, structuring, and categorization of information (print or electronic) for analysis and interpretation.
Demographic-pertaining to the study of population statistics, changes, and trends based on various measures of fertility (adding to a population), mortality (subtracting from a population), and migration (redistribution of a population).
Diffusion-the spread of people, ideas, technology, and products among places.
Distribution -the arrangement of items over a specified area (synonymous with spatial distributions).
Earth-when capitalized, this refers to the planet named Earth.
Earth space (see spatial)-the spatial dimension of Earth's surface, the study of which is called geography. The term is used in contrast with the popular term "space," which refers to outer space (away from Earth).
Earth-sun relations-the study of the relationships between the sun and the Earth, which explains day and night, seasons, and major climatic variations on Earth.
Ecosystem (ecological system)-a system formed by the interaction of all living organisms (plants, animals, humans) with each other and with the physical and chemical factors of the environment in which they live.
Environment-everything in and on Earth's surface and its atmosphere within which organisms, communities, or objects exist. The natural or physical environment refers to those aspects of the environment produced by natural or physical processes; the human or cultural environment refers to those aspects of the environment produced by human or cultural processes.
Equilibrium-the point in the operation of a system when driving forces and resisting forces are in balance.
Erosion-the wearing away of parts of Earth's surface by natural forces of wind, water, and ice. Human use of the land can have a major effect on the rate of erosion.
Geographic Information System (GIS)-a geographic database that contains information about the distribution of physical and human characteristics of places or areas. In order to test hypotheses, maps of one characteristic or combination can be produced from the database to analyze the data relationships.
Geographic model-an idealized, simplified representation that seeks to portray or explain a particular geographic reality.
Geographic tool-a device used to compile, organize, manipulate, store, report, or display geographic information, including maps, globes, graphs, diagrams, aerial and other photographs, satellite-produced images, geographic information systems, and computer databases as well as other software.
Geography-the science and art of describing, analyzing, explaining, and interpreting the Earth as the home of human beings; geography places special emphasis on the spatial relations of society and the physical or natural environment.
Human characteristics-features and patterns of features on Earth's surface created by humans.
Human features-features and patterns of features on Earth's surface created by humans, including dwellings, crops, roads, machines, places of worship, and other cultural elements; synonymous with human characteristics and cultural landscapes.
Human processes-a course or method of operation that produces, maintains, and alters human systems on Earth, such as migration or diffusion.
Human system-a collection of human entities that are linked and interrelated, such as a city, an airport, and a transportation network.
Hydrosphere-the water realm of Earth, which includes water contained in the oceans, lakes, rivers, ground, glaciers, and water vapor in the atmosphere.
Interdependence-people relying on each other in different places or in the same place for ideas, goods, and services.
Land use-the range of uses of Earth's surface made by humans. Uses are classified as urban, rural, agricultural, forested, etc., with more specific subclassifications useful for specific purposes ( for example, low-density residential, light industrial, nursery crops).
Landform-the shape, form, or nature of a specific physical feature of Earth's surface (for example, plain, hill, plateau, mountain).
Latitude-assuming that the Earth is a sphere, the latitude of a point on the surface is the angle measured at the center of the Earth between a ray lying on the plane of the equator and a line connecting the center with the point on the surface.
Legend-synonymous with map key.
Lithosphere-the uppermost portion of the solid Earth, including soil, land, and geologic formations.
Location-the position of a point on Earth's surface expressed by means of a grid (absolute) or in relation (relative) to the position of other places.
Longitude-the position of a point on Earth's surface expressed as its angular distance, east or west, from the prime meridian to 180 degrees.
Map key-an explanatory description or legend to features on a map or chart.
Map projections-a mathematical formula by which the lines of a global grid and the shapes of land and water bodies are transferred from a globe to a flat surface.
Megalopolis-a continuous urban region that forms when cities and their suburbs expand until they coalesce with neighboring cities.
Mercator projection-devised by Gerhard Mercator for his world map in 1569, this projection has the parallels and meridians as straight lines intersecting at right angles. Its main advantage is that lines of constant direction are straight lines, so that it is used widely for navigation; its major disadvantage is that the size of areas becomes increasingly exaggerated toward the poles.
Movement-in geography, the interaction across Earth space that connects places. This interaction occurs with flows of human phenomena, such as goods, people, and ideas, and with natural phenomena such as winds, rivers, and ocean currents.
Natural hazard-an event in the physical environment, such as a hurricane or earthquake, that is destructive to human life and property.
Natural process-synonymous with physical process.
Nonrenewable resources-a finite resource that cannot be replaced once it is used (for example, petroleum, minerals).
Perception-the feelings, attitudes, and images people have of different places, peoples, and environments. The images people have in their heads of where places are located are called perceptual or mental maps.
Physical characteristics-features and patterns of features on Earth's surface caused by physical or natural processes, such as landforms, vegetation, and atmospheric phenomena.
Physical /natural process-a course or method of operation that produces, maintains, or alters Earth's physical systems, such as glacial processes eroding and depositing landforms.
Physical/natural systems-climates, landforms, and soils are examples of natural or physical systems. For a more complete definition of physical systems, refer to the rationale statement on page twelve.
Places-locations having distinctive characteristics which give them meaning and character and distinguish them from other locations.
Population pyramid-a bar graph showing the distribution by gender and age of a country's population.
Region-an area with one or more common characteristics or features which give it a measure of homogeneity and make it different from surrounding areas.
Renewable resource-a resource that can be regenerated if used carefully (for example, fish, timber.)
Resource-an aspect of the physical environment that people value and use to meet a need for fuel, food, industrial product, or something else of value.
Robinson projection-developed by Arthur Robinson in 1963, this projection has the parallels as straight lines; the central meridian is a straight line but the others are arcs. No point is completely free of distortion, which increases toward the poles. It is widely used for thematic world maps.
Sacred place-an area recognized by a group of people to have religious significance.
Satellite Image-an image produced by a variety of sensors, such as radar, microwave detectors, and scanners, which measure and record electromagnetic radiation. The collected data are turned into digital form for transmission to ground receiving stations. The data can be reconverted into imagery in a form resembling a photograph.
Scale-on maps, the relationship or ratio between a linear measurement on a map and the corresponding distance on Earth's surface. For example, the scale 1:1,000,000 means that one unit (inch or centimeter) on the map represents 1,000,000 similar units on Earth's surface. The term small scale sometimes refers to the study of small areas.
Settlement pattern-the spatial distribution and arrangement of human habitations, including rural and urban centers.
Social process-a course or method of operation that produces, maintains, or alters human systems on Earth, such as migration or diffusion. Synonymous with human process and cultural process.
Spatial-pertains to space on Earth's surface; refers to distances, directions, areas and other aspects of space.
Spatial distribution-the location shown on a map of a set of human or physical features that represents an aspect of a specified phenomenon within an area; for example, the set of locations of all two-story houses built between 1930 and 1940 in Denver.
Spatial perspective-the point of view that emphasizes the essential issue of place-embodied in specific questions such as "Where is it?" "Why is it there?" -as a fundamental dimension of human experience.
Spatial organization-the mode in which Earth space is structured by or implicated in the operation of social and/or physical processes.
Surface pattern-the real or geometric arrangement of the human and/or physical features in an area on or near Earth's surface, as in the pattern of a spatial distribution.
System-a collection of entities that are linked and interrelated, such as hydrologic cycle, cities, and transportation modes.
Technology-application of knowledge to meet the goals, goods, and services needed and desired by people.
Thematic map-a map representing a specific spatial distribution, theme, or topic (for example, population density, cattle production, or climates of the world).
Threshold-in physical and environmental processes, the point in the operation of a system when a jump or relatively great change occurs in response to a minor input; in an economic context, the minimum population needed for a service (for example, an auto dealer) to locate in a central place.
Urbanization-a process in which there is an increase in the percentage of people living/working in urban places as compared to rural places.
Weathering-the breaking down, disintegration, or dissolving of Earth's surface and subsurface rocks and minerals by physical, chemical, and organic process.
Workplace competencies refer to the skills that should be taught from kindergarten through grade 12 to enable graduates to perform effectively in the workplace, as established by the Secretary's Commission on Achieving Necessary Skills. The Commission was comprised of representatives from education, business, unions, and government and was charged to examine changes in the world of work and the implications of those changes for learning.