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When cartographers represent the three-dimensional Earth in two dimensions what is likely to occur is distortion.
When cartographers represent the three-dimensional Earth in two dimensions what is likely to occur is distortion.
When cartographers represent the three-dimensional Earth in two dimensions what is likely to occur is distortion.
You can't. Not in this universe, anyway. The problem in reverse has challenged cartographers for centuries. How do you map a global earth onto a flat surface? There are many different "projections" that represent various compromises and characteristics, but no two-dimensional representation can completely capture the unique nature of a globe.
The what? If you are talking about Earth....The seeds represent the core, the actual fruit of the apple represent the mantle and the peel represents the crust.
When cartographers represent the three-dimensional Earth in two dimensions what is likely to occur is distortion.
When cartographers represent the three-dimensional Earth in two dimensions what is likely to occur is distortion.
When cartographers represent the three-dimensional Earth in two dimensions what is likely to occur is distortion.
When cartographers represent the three-dimensional Earth in two dimensions what is likely to occur is distortion.
When cartographers represent the three-dimensional Earth in two dimensions what is likely to occur is distortion.
Distortion
Distortion
When cartographers represent the three-dimensional Earth in two dimensions what is likely to occur is distortion.
Cartographers use map projections to represent the curved surface of the Earth on a flat map. Different map projections distort the size, shape, distance, or direction of features on the map to varying degrees. Each projection has its strengths and weaknesses depending on the purpose of the map.
Distortion of shapes, sizes, and distances is likely to occur when cartographers represent the three-dimensional Earth on a two-dimensional map. This distortion is known as map projection, where different map projections prioritize different aspects such as area, distance, or direction. It is impossible to accurately represent the spherical Earth on a flat map without some degree of distortion.
Cartographers use topographic maps to see the elevation of landforms. These maps use contour lines to represent the elevation of different features on the Earth's surface. Cartographers can interpret these lines to understand the terrain and elevation changes in an area.
Cartographers an represent the spherical Earth on flat paper by making a projection, which is like casting shadows from the spherical world onto a flat piece of paper.