Conformal,equal-area
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.
A globe provides a more accurate representation of the true shape of a continent compared to a flat map, as it preserves the spherical nature of the Earth. Maps distort the shapes of continents due to the challenge of projecting a 3D surface onto a 2D plane.
A type of map that doesn't show distortion is a globe. A globe is a three-dimensional representation of Earth, which accurately depicts the true shapes and sizes of continents and oceans without distortion that occurs on flat maps.
The most accurate way to show the Earth's continents and oceans is by using a map projection that preserves the relative size and shape of landmasses, such as the Winkel Tripel projection. This projection minimizes distortion of continents and oceans compared to other types of projections. Additionally, utilizing a globe is the most accurate representation of Earth's true shape and geography.
A Robinson map is a type of world map projection that was created in 1963 by Arthur H. Robinson. It aims to balance the distortion of shape, area, scale, and distance in a way that provides a more visually appealing representation of the globe compared to other map projections like the Mercator projection. The Robinson map is commonly used in atlases and textbooks.
A conformal map preserves shape, meaning angles are maintained. A equal-area map preserves size, meaning areas are accurately represented.
A conformal projection preserves the shape of features on a map but distorts their area. Examples of conformal projections include the Mercator projection and the Lambert conformal conic projection.
Different map projections distort characteristics such as shape, size, distance, and direction. For example, the Mercator projection distorts the size of land masses near the poles, making them appear larger than they actually are, while the Peters projection preserves size but distorts shape. It's important to choose a map projection based on the specific purpose of the map to minimize distortion of certain features.
The phenomenon where the shape or size of the same place appears different on various maps is known as "map projection." Different map projections distort geographical features in various ways to represent the three-dimensional Earth on a two-dimensional surface. Common projections include the Mercator, which preserves angles but distorts size, and the Robinson, which aims for a more visually appealing balance of shape and size.
scale
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.
You have to use a map projection. There are various types, and the most common type is a conformal projection, which preserves the shape of small features. There are various different conformal projections in use.
the atlas that truckers most use are maps in which show true shape but definitely indignify the size of the map
You must be referring to a cartogram. This map places countries in population rather than size.
Graduated Symbol Map
That is called a "physical map" or a topographic map
This map expands the water areas in order to keep size and shape of the continents accurate.