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MappingDespite their variety, all m
Mapping
Despite their variety, all maps have similar components, or parts.
These include a title; a legend or key; a direction indicator; and a scale.
The title of a map. It identifies what the map is about and what parts of
the earth it shows. The title of some maps includes a date. Dates are useful
on maps showing features that change over time. A map with the title
“Distribution of Population in France: 1920”, for example, should not be
used when looking for figures on the present population of France.
A legend. A legend or key explains the meaning of colors and symbols
used on a map. A map with areas shown in green, red, and blue might be
misunderstood unless the user knows what the green, red, and blue
represent. The legend also explains the meaning of symbols used on a
map, such as stars for capital cities.
A direction indicator. Every map should have a direction indicator. One
such indicator is an arrow that points north. A different way to find
directions on a map is to study the parallels and meridians. East and west
directions follow parallels, or lines of latitude. North and south directions
13
follow meridians, or lines of longitude. Parallels and meridians cross each
other to form an imaginary grid over the earth. Because each degree can
be broken into 60 minutes (′) and each minute can be broken into 60
seconds (″), this grid can be used to fix the precise location of any point on
the earth’s surface.
The most important longitude is called the Greenwich Meridian,
because it passes through a place called Greenwich in London where
there is a famous observatory. The longitude of the Greenwich Meridian is
0 degrees. At Greenwich local time is called Greenwich Mean Time
(GMT). All places on the same meridian have the same local time. When
it is noon at a given meridian, it is after noon or post meridiem (p.m.) at
places which lie to the east of it. This is because the earth rotates from west
to east. At the same time the sun will be before noon or ante meridiem
(a.m.) at places lying to the west.
Map scales and projections. A map scale provides statistical
information used to measure distances on a map. While maps have similar
components, they do not always show areas of the world in exactly the
same way. The size and shape of North America, for example, may look
somewhat different on two different maps. The differences occur because
the two maps use different map projections, or methods by which the
features of the earth’s curved surface are transferred onto a flat map.
No matter which projection is used, every map has some distortions
that are inevitable in the process of illustrating the earth’s spherical
surface on a flat map. Certain distortions, however, are worse on some
projections than on others. Mapmakers choose which projection to use
depending on what undistorted features, or map properties, are most
important to be illustrated. The four most useful map properties are
correct shape, correct size, correct distance, and correct direction. No
world map can have all four map properties. Maps of smaller areas,
however, may have less distortion than maps of larger areas.
Remote sensing
Rapid developments in technology have made several new tools
available. These tools already have provided a wide range of valuable
information about the earth’s surface. Remote sensing, the gathering
and recording of information through aerial photographs and satellite
images, ranks among the most important of the new methods.
Aerial photographs. Geographers use aerial photographs — pictures
taken from above the earth — to study relationships involving people and
places that are not easily seen from ground level. Aerial photographs of
traffic patterns, for example, can be used to help plan new highways.
Military planners can see troop movements and rocket launch sites.
Foresters can spot diseased or insect-infested trees in rugged terrain that
would be hard to reach on foot. Aerial photographs even show features
of the ocean floor.
14
Because aerial photographs provide such accurate and detailed
information, cartographers rely on them as a source of information when
making maps. Most aerial photographs used to make maps are taken by
cameras in high-altitude airplanes and are developed in strips of
overlapping pictures. An instrument called a stereoscope converts a pair of
overlapping aerial photographs into a three-dimensional view of the area.
Elevations appear somewhat distorted on aerial photographs because
the camera taking the pictures is closer to the tops of the mountains than
to the valleys. As a result, mountains appear larger than the more distant
valleys. This distortion is corrected by using a viewing instrument called
a stereoplotter, which gives a more accurate three-dimensional view of
the earth.
Satellite images. Many of the satellites circling (revolving around) the
earth have special sensors called multispectral scanners. These scanners
record observations electronically and send them to ground stations.
Computers then translate the data into electronic images, making false-
color pictures. Even though the pictures are taken from far in space, they
are so detailed that they can show houses or even sailboats on a lake.
An extraordinary group of earth satellites known as Landsats take
many of the satellite images. These satellites circle the earth 14 times
every 24 hours, silently scanning, collecting, and sending back a greater
view of the world than any eye could ever see.
In addition to globes, maps, and remotely sensed images, geographers
use tables, charts, graphs, and diagrams to help them in their work.
Geographers also use computers to solve geographic problems as well as to
make maps and graphics.
1. What components do maps have?
2. What is the unit for measuring latitude and longitude?
3. Why is the global grid significant?
4. What are the four most useful map properties?
5. Why are aerial photographs and satellite images especially useful to
geographers?
6. Why do elevations appear somewhat distorted on aerial photographs?
7. How do computers help geographers?
Despite their variety, all maps have similar components, or parts.
These include a title; a legend or key; a direction indicator; and a scale.
The title of a map. It identifies what the map is about and what parts of
the earth it shows. The title of some maps includes a date. Dates are useful
on maps showing features that change over time. A map with the title
“Distribution of Population in France: 1920”, for example, should not be
used when looking for figures on the present population of France.
A legend. A legend or key explains the meaning of colors and symbols
used on a map. A map with areas shown in green, red, and blue might be
misunderstood unless the user knows what the green, red, and blue
represent. The legend also explains the meaning of symbols used on a
map, such as stars for capital cities.
A direction indicator. Every map should have a direction indicator. One
such indicator is an arrow that points north. A different way to find
directions on a map is to study the parallels and meridians. East and west
directions follow parallels, or lines of latitude. North and south directions
13
follow meridians, or lines of longitude. Parallels and meridians cross each
other to form an imaginary grid over the earth. Because each degree can
be broken into 60 minutes (′) and each minute can be broken into 60
seconds (″), this grid can be used to fix the precise location of any point on
the earth’s surface.
The most important longitude is called the Greenwich Meridian,
because it passes through a place called Greenwich in London where
there is a famous observatory. The longitude of the Greenwich Meridian is
0 degrees. At Greenwich local time is called Greenwich Mean Time
(GMT). All places on the same meridian have the same local time. When
it is noon at a given meridian, it is after noon or post meridiem (p.m.) at
places which lie to the east of it. This is because the earth rotates from west
to east. At the same time the sun will be before noon or ante meridiem
(a.m.) at places lying to the west.
Map scales and projections. A map scale provides statistical
information used to measure distances on a map. While maps have similar
components, they do not always show areas of the world in exactly the
same way. The size and shape of North America, for example, may look
somewhat different on two different maps. The differences occur because
the two maps use different map projections, or methods by which the
features of the earth’s curved surface are transferred onto a flat map.
No matter which projection is used, every map has some distortions
that are inevitable in the process of illustrating the earth’s spherical
surface on a flat map. Certain distortions, however, are worse on some
projections than on others. Mapmakers choose which projection to use
depending on what undistorted features, or map properties, are most
important to be illustrated. The four most useful map properties are
correct shape, correct size, correct distance, and correct direction. No
world map can have all four map properties. Maps of smaller areas,
however, may have less distortion than maps of larger areas.
Remote sensing
Rapid developments in technology have made several new tools
available. These tools already have provided a wide range of valuable
information about the earth’s surface. Remote sensing, the gathering
and recording of information through aerial photographs and satellite
images, ranks among the most important of the new methods.
Aerial photographs. Geographers use aerial photographs — pictures
taken from above the earth — to study relationships involving people and
places that are not easily seen from ground level. Aerial photographs of
traffic patterns, for example, can be used to help plan new highways.
Military planners can see troop movements and rocket launch sites.
Foresters can spot diseased or insect-infested trees in rugged terrain that
would be hard to reach on foot. Aerial photographs even show features
of the ocean floor.
14
Because aerial photographs provide such accurate and detailed
information, cartographers rely on them as a source of information when
making maps. Most aerial photographs used to make maps are taken by
cameras in high-altitude airplanes and are developed in strips of
overlapping pictures. An instrument called a stereoscope converts a pair of
overlapping aerial photographs into a three-dimensional view of the area.
Elevations appear somewhat distorted on aerial photographs because
the camera taking the pictures is closer to the tops of the mountains than
to the valleys. As a result, mountains appear larger than the more distant
valleys. This distortion is corrected by using a viewing instrument called
a stereoplotter, which gives a more accurate three-dimensional view of
the earth.
Satellite images. Many of the satellites circling (revolving around) the
earth have special sensors called multispectral scanners. These scanners
record observations electronically and send them to ground stations.
Computers then translate the data into electronic images, making false-
color pictures. Even though the pictures are taken from far in space, they
are so detailed that they can show houses or even sailboats on a lake.
An extraordinary group of earth satellites known as Landsats take
many of the satellite images. These satellites circle the earth 14 times
every 24 hours, silently scanning, collecting, and sending back a greater
view of the world than any eye could ever see.
In addition to globes, maps, and remotely sensed images, geographers
use tables, charts, graphs, and diagrams to help them in their work.
Geographers also use computers to solve geographic problems as well as to
make maps and graphics.
1. What components do maps have?
2. What is the unit for measuring latitude and longitude?
3. Why is the global grid significant?
4. What are the four most useful map properties?
5. Why are aerial photographs and satellite images especially useful to
geographers?
6. Why do elevations appear somewhat distorted on aerial photographs?
7. How do computers help geographers?
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СопоставлениеНесмотря на их разнообразие все карты имеют аналогичные компоненты, или частей.К ним относятся заголовок; Легенда или ключа; указатель поворота; и масштаба.Название карты. Он определяет, что карте составляет около и какие частиЗемля, которую он показывает. Название некоторых карт включает в себя дату. Даты являются полезнымина картах показаны функции, которые изменяются с течением времени. Карта с названием«Распределение населения во Франции: 1920», например, не следуетиспользуется при поиске цифры на нынешнего населения Франции.Условные обозначения. Легенда или ключ объясняет значение цвета и символыиспользуется на карте. Может быть карта с областями, показано в зеленый, красный и синийнеправильно, если пользователь знает, что зеленый, красный и синийпредставляют собой. Легенда также объясняет смысл символов, используемых накарта, как звезды для столичных городов.Направление индикатора. Каждая карта должна иметь указателя поворота. Одинтакой показатель является стрелка, указывающая на север. Другой способ найтинаправления на карте является изучение параллели и меридианы. Восток и Западследовать parallels, или линии широты. Северная и Южная направлениях13Следуйте меридианов, или линий долготы. Параллели и меридианы крест другдругие формы воображаемой сетки над землей. Потому что каждый градус можетразбить на 60 минут (′) и каждую минуту может быть разбит на 60секунды (″), эта сетка может использоваться чтобы зафиксировать точное местоположение любой точки наповерхности земли.Наиболее важным долготы называется Гринвичский меридиан,потому что он проходит через место под названием Гринвич в Лондоне гдеесть известный обсерватории. -Долгота Гринвичский меридиан0 градусов. В Гринвиче местное время называется среднее время по Гринвичу(GMT). Все места на том же меридиане имеют то же время местное. Когдаполдень на данный Меридиан, это после полудня или post meridiem (ч)места, которые лежат к востоку от нее. Это потому, что Земля вращается с Западана восток. В то же время солнце будет до полудня или ante meridiem(ч) на местах, лежащих на западе.Картировании и прогнозы. Масштаб карты предоставляет статистическиеИнформация, используемая для измерения расстояний на карте. Хотя карты имеют аналогичныекомпоненты, они не всегда показывают районы мира в РовноТаким же образом. Размер и форма Северной Америки, например, может выглядетьнесколько отличается на две разные карты. Различия возникают, потому чтодве карты использовать различных картографических проекций, или методы, которыеособенности изогнутой поверхности земли передаются на плоскую карту.Независимо от того, какая проекция используется каждая карта имеет некоторые искажениякоторые неизбежны в процессе по иллюстрирующие земли сферическаяповерхность на плоской карте. Некоторые искажения, однако хуже на некоторыхпрогнозы, чем на других. Картографов выбрать какая проекция для использованияв зависимости от того, какие неискаженное функции или свойства карты являются наиболееважно, чтобы проиллюстрировать. Четыре наиболее полезные свойства картыправильной формы, правильный размер, правильное расстояние и направление. НетКарта мира может иметь свойства все четыре карты. Карты на небольших районов,Однако могут иметь меньше искажений, чем карты крупных районов.Дистанционное зондированиеБыстрое развитие технологии сделали несколько новых инструментовдоступны. Эти инструменты уже обеспечили широкий спектр ценныхИнформация о земной поверхности. Дистанционное зондирование, сбори запись информации на основе аэрофотоснимков и спутниковыхизображения, выстраивает в ряд среди самых важных новых методов.Аэрофотосъемки. Географы используют аэрофотосъемки — фотографииполучения сверху земли — для изучения отношений с участием людей иместа, которые не видели легко от уровня земли. Аэрофотоснимкишаблоны трафика, например, может использоваться для планирования новых автомагистралей.Военные планировщики можно увидеть передвижения войск и ракетного запуска сайтов.Лесоводы могут пятно больными или насекомых зараженных деревьев в пересеченной местностибыло бы трудно добраться пешком. Аэрофотосъемка даже показывают особенностидна океана.14Потому что аэрофотосъемка обеспечивают такие точные и подробныеинформации, картографы полагаются на них как источник информации, приСоздание карты. Большинство аэрофотосъемки, используемый для сделать карты принимаютсякамеры в высотных самолетов и разрабатываются в полоскиперекрывающиеся фотографии. Инструмент называется стереоскоп преобразует параoverlapping aerial photographs into a three-dimensional view of the area.Elevations appear somewhat distorted on aerial photographs becausethe camera taking the pictures is closer to the tops of the mountains thanto the valleys. As a result, mountains appear larger than the more distantvalleys. This distortion is corrected by using a viewing instrument calleda stereoplotter, which gives a more accurate three-dimensional view ofthe earth.Satellite images. Many of the satellites circling (revolving around) theearth have special sensors called multispectral scanners. These scannersrecord observations electronically and send them to ground stations.Computers then translate the data into electronic images, making false-color pictures. Even though the pictures are taken from far in space, theyare so detailed that they can show houses or even sailboats on a lake.An extraordinary group of earth satellites known as Landsats takemany of the satellite images. These satellites circle the earth 14 timesevery 24 hours, silently scanning, collecting, and sending back a greaterview of the world than any eye could ever see.In addition to globes, maps, and remotely sensed images, geographersuse tables, charts, graphs, and diagrams to help them in their work.Geographers also use computers to solve geographic problems as well as tomake maps and graphics.1. What components do maps have?2. What is the unit for measuring latitude and longitude?3. Why is the global grid significant?4. What are the four most useful map properties?5. Why are aerial photographs and satellite images especially useful togeographers?6. Why do elevations appear somewhat distorted on aerial photographs?7. How do computers help geographers?
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