The Mercator projection preserves the shape of countries accurately, but distorts their size, especially near the poles. This means that countries near the equator will appear smaller than they actually are on a Mercator map, while those near the poles will appear larger.
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.
Continents are typically placed on a world map by using a projection method, such as the Mercator projection, where they are spread out across the globe in their relative positions and sizes. The location of the continents on a map is determined by their latitudinal and longitudinal coordinates, as well as their relationships to other landmasses and bodies of water. It is important to accurately represent the shape and size of the continents to create an informative and visually appealing map.
The Mercator projection preserves straight lines, making it useful for navigation. It also shows true direction, making it valuable for sailors and pilots. Additionally, it accurately represents shapes and angles near the equator.
Gerardus Mercator is credited with inventing the Mercator projection in 1569, which is one of the most common projections for world maps due to its ability to accurately represent lines of constant course, known as rhumb lines, for navigational purposes.
A Mercator projection map would be useful for comparing the sizes of continents as it preserves the shapes of continents but distorts their sizes, making it easier to visually compare.
None of them. However, the location is distorted the least.
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.'
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.
One of the big disadvantages of a Mercator projection is that it cannot accurately project the areas around the north and south pole. A Mercator projection is not equally accurate in all directions, even away from the poles.
The Mercator projection map still is in use today because, although the sizes and distance were distorted, it still showed directions accurately.
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.'
Mercator is not a map, but a map projection, i.e. a way of representing the continents on a map. The Mercator projection is only accurate between 30 degrees north and south latitude. The further away you go from that point, the greater the exaggeration.
It is a Mercator projection!
what similarity about the mercator projection and the robinson projection?
The answer is the Mercator projection
what is one problem with the mercator projection
cylindrical projection