They become distorted since the globe is not flat. Areas away from the equator get represented as much bigger than they really are relative to areas at the equator.
They become distorted.
They become distorted since the globe is not flat. Areas away from the equator get represented as much bigger than they really are relative to areas at the equator.
They become distorted since the globe is not flat. Areas away from the equator get represented as much bigger than they really are relative to areas at the equator.
It depends on the projection that is used.
They become distorted since the globe is not flat. Areas away from the equator get represented as much bigger than they really are relative to areas at the equator.
They become distorted since the globe is not flat. Areas away from the equator get represented as much bigger than they really are relative to areas at the equator.
They become distorted since the globe is not flat. Areas away from the equator get represented as much bigger than they really are relative to areas at the equator.
They become distorted since the globe is not flat. Areas away from the equator get represented as much bigger than they really are relative to areas at the equator.
No matter what kind of map is made, some portion of the surface will always look either to small, to big, or out of place. Mapmakers have, however, found ways to limit the distortion of shape, size, distance, and direction. So the answer is the Earths features are distorted.
Surface area of a globe = 4*pi*radius2
-- The sun's energy doesn't really need to be transferred "around the globe",because every point on the globe is on a direct line of sight from the sun forexactly 50% of the time.-- Solar energy is transferred from place to place, however, by the large-scalemotions of heated and cooled air masses, referred to technically as "wind".
A model of the Earth's surface is a globe.