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VOCABULARY MATCHING Chapter 1: BASIC CONCEPTS Task: 1) Match the terms below with their definitions. 2) Underline any definitions, key takeaways, or notes you consider important. 3) Highlight all examples provided with a colored highlighter. 4) Give yourself a score in the space provided above based on how much time and effort you put into studying these terms, their definitions, and the explanations and examples provided. Key Issue 1: How Do Geographers Describe Where Things Are? ○ analytic scale (aka “scale of observation”) ○ cartography ○ geography ○ GIS ○ GPS ○ human geography ○ map scale (aka cartographic scale) ○ physical geography ○ place ○ projection ○ region ○ remote sensing Key Issue 2: Why Is Each Point on Earth Unique? ○ absolute location (aka mathematical location) ○ cultural ecology ○ cultural landscape ○ culture ○ environmental determinism ○ formal region(aka uniform or homogeneous region) ○ functional region (aka nodal region) ○ location ○ meridians (aka lines of longitude) ○ parallels (aka lines of latitude) COVER UP TERM WHEN STUDYING! Term Definition ○ perceptual region (aka vernacular region, aka mental map) ○ possibilism ○ site ○ situation ○ toponym ○ Township and Range System Key Issue 3: Why Are Different Places Similar? ○ agricultural density ○ arithmetic density ○ concentration ○ contagious diffusion ○ density ○ diffusion ○ distance decay (aka friction of distance) ○ (spatial) distribution ○ globalization ○ hearth ○ hierarchical diffusion ○ pattern ○ physiological density ○ relocation diffusion ○ space-time compression ○ stimulus diffusion ○ uneven development Other: ○ spatial analysis ○ spatial data ○ spatial perspective ○ Five Map Types: (Ch/DD/PS/I/C) ○ The Four Questions of Human Geography Key Takeaways/ Notes/Examples Key Issue 1: How Do Geographers Describe Where Things Are? 1. geography From the Greek for “world/earth writing” (from Eratosthenes), the study of where things are on the earth’s surface and reasons for their locations. History of Geography: 1) Greeks: G. as describing strange new lands 2) Muslims: G. as gathering information and making maps in support of trade 3) Germans (Humboldt and Kant “Father of G.”): G. as all encompassing discipline like history that synthesises information from many fields. 4) Determinists: Environment explains culture 5) Possibilists: No, environment sets limits BUT humans adapt big time 6) Quantitative revolution: G. must predict stuff with mathematical precision 7) Moderns: No, G. serves humanity/solves problems • Review here the four questions of human geography: What? Where? Why there? So What? 2. human geography The study of where human activities such as religion, agriculture, industry or cities are located and why they are located there. In short, the “why of where”. 3. physical geography The study of where and why natural forces such as climates, landforms, and vegetation, occur as they do. 4. cartography The science of mapmaking. 5. place A specific point on Earth distinguished by a distinctive combinations of cultural and physical features 6. region a specific area of Earth distinguished by a distinctive combination of cultural and physical features • Example: Sahel: both physical (transition zone between Sahara desert and equatorial jungles and cultural region (nomadism, ranching and associated cultural traits: herding, trading meat for grain, Fulani) 7. map scale (aka cartographic scale) the mathematical relationship between a feature's size on a map and its actual size on earth. • Three ways scale is presented on a map: written, graphic, RF (ration). • Large scale maps show small areas in large detail. Small scale maps show large area but with less detail. the spatial level at which a 8. analytic scale (aka phenomenon is observed or scale of observation) analyzed. • Includes climate, topography, geomorphology, soils, species distribution, hydrology (water), oceanography, landscape ecology (plants and animals) • Good geographers jump scales because… • … different spatial patterns and different interrelationships are revealed at different scales. • Different projections better for different purposes. • Necessarily introduces distortion. Choice of projection betrays preferences or cultural prejudices of cartographer. 9. projection The scientific method of transferring locations on Earth's surface to a flat map 10. GPS A system that determines the precise position of something on earth through a series of satellites, tracking stations, and receivers. 11. GIS A computer system that stores, organizes, analyzes, and maps geographic data in layers so that relationships, patterns and trends are easily observable. • Stands for Geographic Information Systems • Allows making complex maps more easily involves layers (called "mash ups”) • A good GIS generated map will reveal whether a spatial relationship is significant or coincidental. 12. remote sensing The science of obtaining information about objects or areas from a distance, typically from aircraft or satellites. • These photographs are increasingly accurate and increasingly useful in providing data to geographers. (Example: infrared satellite photographs of crop conditions, climate change measurements, etc.) • Stands for Global Position System. Key Issue 2: Why Is Each Point on Earth Unique? 13. location The position of anything on Earth's surface. • Geographers study location through the concepts of toponyms, site (including mathematical or absolute location), and situation. • Most straightforward way of describe location (because most places already have been named!) • Toponyms can give geographers clues to the history, activities, and values of a location. For example, a look at the toponyms in the Canadian province of Quebec yields clues to the boundary of linguistics divisions between the French and English speakers in that region. 14. toponym A name given to a portion of the earth’s surface. 15. site The physical characteristics of a place, including a place’s absolute/mathematical location (e.g. longitude and latitude), as well as its climate, topography (land forms), water sources, soil, and vegetation. 16. absolute (aka mathematical) location • The combination of physical (site) characteristics give each place its distinctive character. • Settlements are often chosen based on site characteristics (proximity of a river or coastline for fresh water, power, or transportation, a hilltop for defense, etc.) • Although humans are increasingly able to alter them, site characteristics tend to be static since they are based on physical characteristics that change very slowly. The identification of a place by some precise and accepted system of coordinates. • Examples: GPS coordinates (latitude and longitude or UTM), Township and Range, street addresses 17. parallels Also known as lines of latitude, these are circles drawn around the globe parallel to the equator and at right angles to the meridians. • Parallels run north to south but describe your east to west position. • Parallels are labeled either north (N) or south (S) and with a number from 0 to 90. • Parallels are based on actual physical (astronomical) features of the earth. 18. meridians Also known as lines of longitude, these are half circles or arcs drawn between the north and south poles. • Meridians run east to west but describe our north to south position. • Meridians are labeled with east (E) or west (W) and with a number from 0 to 180. • Meridians are NOT based on any physical properties of the earth. They are a human invention. 19. Township and Range System A rectangular survey system designed by Thomas Jefferson as part of the Land Ordinance of 1758 after the American Revolution as a way of facilitating sale of Western land to settlers. Basic unit of this system is a six by six mile grid called a Township. • An example of a system of absolute location. • Explains the dispersed rural settlements and checkerboard pattern in interior rural U.S. • Drawn without reference to terrain, resulting in regular, uniform parcels of land. • The pattern of farms on the landscape in the interior of the United States reflects the township-and-range system, with farms spaced by sections, half sections, or quarter sections. 20. situation The location of a place relative to other places, a way of describing the location of a place by describing that place’s political, cultural (social), and economic connections and interactions with other places. • We use a place’s situation (how its location is related to some other familiar place) when giving directions. • Situation descriptions of a place are crucial in appreciating a place’s importance. For example, Singapore’s situation at the Strait of Malacca almost guaranteed that it would become a major center for shipping and trade in SE Asia. • Situation is fluid as political, cultural and economic connections are based on human activity which change over time. • Formal regions help geographer identify global or local patterns but watch out: they always involve generalizations in that they suggest a characteristic is uniform or homogenous within the region, which is almost never the case. 21. formal region An area defined by well-defined boundaries within which some characteristic is dominant or universal and beyond which that characteristic (chosen and defined by the geographer) does not apply. 22. functional region An area or region organized around a node or focal point so that some characteristic dominates at the node and declines in strength or importance the farther one moves away from the node. For example, the area a pizza restaurant delivers to would be a functional region because the farther one moves from the restaurant the fewer people would be likely to call for a pizza to be delivered from that restaurant.. 23. perceptual (aka vernacular) region An area or region that people believe to exist as part of their cultural identity. These regions emerge from an individual’s informal sense of place rather than scientific data. 24. culture Body of beliefs, social forms, material traits that together constitute the distinct tradition of a group of people • Another way of subdividing this incredibly broad concept: artifacts (physical evidence of culture), mentifacts (beliefs, ideas, taboos, etc.) and sociofacts (institutions like families, tribes, chiefs, corporations, etc.) 25. cultural landscape The visible imprint of a culture on the natural landscape. • Culture is the agent (the thing making the imprint), the natural area is the medium (the thing receiving the imprint), and the cultural landscape is the result. 26. cultural ecology The study of human environment relationships and interactions. In other words, this is the study of how different human cultures have adapted in order to survive and prosper in various physical environments around the world. Examples of cultural ecology: • The Adobe style houses of the native Americans in the American Southwest were an adaptation to the hot, dry climate of the region (cool during the day, radiate heat at night, flat roof to catch rainfall) • The prohibition against killing cows in India is thought to have been an adaptation that ensured the milk was always available during times of famine. 27. environmental determinism A nineteenth- and early twentiethcentury approach to the study of geography that argued that the general laws sought by human geographers could be found in the physical sciences. Geography was therefore the study of how the physical environment caused (determined) human activities. • An early and classic of environmental determinism used to justify European colonialism: peoples of the tropics are not as industrious or inventive as people in mid latitudes because their mild climate doesn’t require them to work as hard or as creatively to survive (they can just pick fruits off trees while Europeans had to develop technologies to deal with harsh winters, etc.) • Functional regions are also called nodal regions. • Functional regions often have a city at their node and depict transportation, communication or especially economic connections between that city and outlying areas. • Other examples: airline hub regions, TV station reception maps, store market areas. • Having a person describe a mental map of a region (i.e. the AGHS campus) will define a vernacular region for that person. • Because vernacular regions are based on an individual's cultural identity, different people will likely define the borders of the same vernacular region differently. • Examples: Middle East, The South, “home”, The Rust Belt, The Sun Belt, Cajun Country, Lakers Nation 28. possibilism • Example 1: climate may set limits on what crops may grow well in certain regions, but humans may choose among those crops that will grow well in a region based on cultural preferences or even alter the environment so that almost any crop can be grown anywhere. • Example 2: The carrying capacity of a region may limit how many humans a region can support. But humans may adapt to limited resources by altering the physical landscape to produce more food, finding alternative food sources, migrating, or intentionally limiting their numbers. • Possibilism was a response to and is currently favored over environmental determinism. The theory that the physical environment may set limits on human actions, BUT that people have the ability to adjust to the physical environment and choose a course of action from many alternatives. Key Issue 3: Why Are Different Places Similar? The arrangement of 29. (spatial) distribution something across Earth's surface. • • • • Geographer’s study the arrangement (distribution) of phenomenon in three ways: the number of things (density), how spread out they are (concentration) and any geometric patterns they observe (pattern). 30. density The frequency with which something exists within a given unit of area. 31. arithmetic density Total number of people divided by total land area, a statistic used to compare the distribution of population in different countries or regions. 32. physiological density The number of people per unit of arable land (land suitable for agriculture). 33. agricultural density The ratio of the number of farmers to the total amount of land suitable for agriculture. In effect, this is a measure of the efficiency and level of modernization of a country or region’s agricultural sector. 34. concentration The extent to which something is spread out over a given area. If some phenomenon is widely spread out it is said by geographers to be dispersed; if it is not spread out it is said to be clustered. 35. pattern The geometric or regular arrangement of something in a study area. • A large population does not mean high arithmetic density. (China has the highest total population but by no means the highest population density because it is so large.) • A high density does not mean a country is necessarily poor (Netherlands (rich): 400 people /km2, Mali (poor): 10 people/km2. • Sample arithmetic densities: Canada, Australia: 3 people/km2, U.S.: 33 people/km2, Bangladesh: 1,200 people/km2, Singapore: 1,700 people/km2. • Egypt is a classic example of a country with a low arithmetic density (total population divided by total land area) but a high physiological density (total population divided by total arable land). What does this tell you about Egypt? • A country with a high agricultural density has a lot of farmers working that country’s farmland meaning that it may lack the modern farming machinery or techniques to farm efficiently. • Conversely, a country with a low agricultural density only needs a few farmers to farm a large amount of farmland efficiently, probably because those farmers have access to modern farm machinery and techniques. • Concentration is not the same as density. For example, two counties could have the same population density (persons/ km2 or person/ mi2) and yet in counties those people could be clustered (grouped together) another dispersed (spread out). • You should know the difference between and examples of relocation diffusion, contagious diffusion, and hierarchical diffusion. 36. diffusion The process by which a characteristic spreads across space. 37. hearth The place from which an innovation originates and then diffuses. 38. relocation diffusion The spread of a feature of trend through bodily movement of people from one place to another (i.e. diffusion via migration). 39. contagious diffusion The rapid and widespread spread of a characteristic throughout a population through direct person to person contact, analogous to the spread of a disease. • Key characteristic of contagious diffusion: PROXIMITY. • The innovation spreads out uniformly outward from the hearth (no jumping as in hierarchical diffusion) • Contagious diffusion doesn’t rely on the relocation of individuals (as w/ relocation diffusion). • Think of a "wave" moving through the crowd at a stadium. 40. hierarchical diffusion The spread of an idea from powerful persons or from places of power (usually large cities) to other persons or places, jumping over intervening areas. • Key characteristic of hierarchical diffusion: JUMPING. • The normal pattern of hierarchical diffusion is first from one large urban area to another and then to smaller towns around those large cities. 41. stimulus diffusion When an innovation is not adopted in its entirety but nevertheless stimulates some experimentation or imitative behavior in the new community. • Key characteristic of stimulus diffusion: IMITATION • Examples: Veggie burger fast food in India, reindeer herding by Inuit, skateboarding was "inland surfing", gang culture to suburbs. 42. globalization the process of increasing international integration and interdependence arising from the interchange of world views, products, ideas and other aspects of culture. 43. uneven development The increasing gap in economic conditions between core and peripheral regions as a result of the globalization of the economy. • Hearths require a culture group that has the willingness, the technical ability, and the financial resources to accept and nurture the innovation. • There are three cultural and economic hearths in the world today: N. America, Europe, and Japan. New York, London, and Tokyo are known as economic command centers because economic commands are issued from these cities. • Key characteristic of relocation diffusion: GET UP AND GO. • The person takes the innovation with him to the new place so that if enough people move, the innovation can fade or even die out at the hearth (this is not true of contagious or hierarchical diffusion). • Key drivers of globalization: telecommunications, jet travel, multi-national corporations, container ships. • Key issues related to globalization: uneven distribution of wealth, uneven distribution of political power, loss of local cultures, and loss of cultural diversity. • Part of the reason the gap in wealth between the core and periphery is growing is that education and technologies available to the core (but not to many in the periphery) are wealth multipliers. • Basic idea: distance makes it more difficult to do trade, communicate, and maintain cultural connections. • Related: Tobler’s so called “First Law of Geography”: "All things are related, but near things are more related than far things." • Examples: more short distance than long distance migration, customers less likely to shop at a store (market area) declines with distance, cultural traits (religion, language, agricultural innovations) all tend to decrease in influence as one move farther from their hearths. • Opposing term: Space Time Compression: the idea that instantaneous communication (texts, email, phone) and rapid means of transportation have reduced the “friction of distance” to almost zero for some (but by no means all) phenomenon. 44. distance decay (aka “friction of distance”) A term describing the effect of distance on cultural or spatial interactions. Specifically, the diminishing in importance and eventual disappearance of a phenomenon with increasing distance from its origin. 45. space-time compression The effect of modern communications and transportation in reducing of the perceived distance between peoples and cultures even though the actual distance between them remains the same. • The idea that the effect of distance on communication, migration, trade, cultural diffusion, seems less and less important. • Opposing term to distance decay and friction of distance. Other 46. spatial analysis an approach to a geographic inquiry looking for patterns in the distribution of human actions, environmental processes across Earths surface. 47. spatial data Any data that can easily be mapped. The data used to create a map. 48. spatial perspective The way geographers look at the world, namely, by looking at how things are organized in space (where they are!), why they are where they are (including how they got there) and how phenomena in one place are spatially related to phenomena in other places (interactions). 49. Five Map Types Choropleth, Dot Distribution, Proportional Symbol, Isoline, Cartograms. 50. Four Questions of APHG NOTES: What?, Where? (patterns), Why there? So what? • Sprinkle this terms liberally on your AP Exam CRQ’s! • Sprinkle this terms liberally on your AP Exam CRQ’s! • Example: Hotelling’s model of industrial location explains why vendors tend to cluster. • Sprinkle this terms liberally on your AP Exam CRQ’s!