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This map projection has the advantage of showing the correct distances between places when taken from the centre point of the projection, however it has the disadvantage that the distances from all other points are incorrect, and areas and shapes get distorted more that one moves away from the centre of the projection.
The azimuthal projection is most useful for showing distances between two points on the Earth. This type of map projection represents the globe on a flat surface by projecting it from a specific point, allowing for accurate measurement of distances from that point to any other point on the map. However, for more comprehensive distance measurements across larger areas, the great circle distance method can be used in conjunction with a globe.
False. The Robinson projection is a compromise map projection that tries to show the size and shape of the continents more accurately than some other projections, but it still distorts both. Water areas are not intentionally expanded to fill extra space on a Robinson projection.
Mercator projection is used on ships. It shows the correct shapes of continents but the areas are distorted. The longitude lines are parallel which makes the areas at the poles seem larger than they actually are. Hope this helps.
The Robinson projection map shows the shapes of the continents more accurately than the Mercator projection map, but both distort the sizes of landmasses, making areas near the poles appear larger than they are. Waterways and continents are more accurately depicted in size and shape on specialized maps like the Winkel Tripel projection, which aims to balance size and shape distortions.
The Mercator projection distorts areas, particularly as one moves away from the equator. Landmasses like Greenland and Antarctica appear much larger than they actually are, while regions near the equator, such as Africa, appear smaller in comparison. This distortion makes the projection less suitable for accurately representing the size of countries and continents, particularly in high-latitude regions. Overall, the Mercator projection is more useful for navigation than for depicting true land area.
It's the location. 'A projection is a system for mapping the round Earth on a flat surface. The Mercator projection map shows the accurate locations of the continents and oceans. The land and water areas, however, are greatly distorted toward the North and South Poles.'
because the robinson projection is more stronger and has more people than the mercator projection. this is also the right answer to. you see i grew up in a small town where yopu have to be right about everything.
because the robinson projection is more stronger and has more people than the mercator projection. this is also the right answer to. you see i grew up in a small town where yopu have to be right about everything.
The Robinson projection is often considered the best choice for displaying the entire world because it balances the distortion of size, shape, and distance, providing a visually appealing representation. Unlike the Mercator projection, which significantly enlarges areas near the poles, the Robinson projection maintains a more proportional depiction of landmasses, making it more suitable for general world maps. Its compromise on accuracy allows for a more realistic view of global geography.
The most commonly used projection for accurately representing land and water areas without distortion is the Robinson projection. It balances size and shape distortion, presenting a visually appealing depiction of the world. Another option is the Winkel Tripel projection, which minimizes distortion in area, direction, and distance, making it suitable for various purposes. Both projections aim to provide a more realistic view of the Earth's surface compared to traditional cylindrical projections.
The others have more good stuff.