they appear as straight lines.i needed help w this (?] too shoooot.aha,
Gerardus Mercator is famous for creating the Mercator projection, a cylindrical map projection introduced in 1569. This projection became highly influential for navigational purposes due to its ability to represent lines of constant course as straight lines.
A Mercator map is a cylindrical map projection that distorts the size of objects as the latitude increases from the equator towards the poles. This means that areas near the poles appear larger than they actually are.
Lines of longitude are referred to as meridians and appear as parallel lines on a globe. These lines converge at the poles and are evenly spaced around the globe from the Prime Meridian at 0 degrees to the 180th meridian.
Polar azimuthal maps or polar projections distort landmasses near the poles due to the nature of projecting a spherical surface onto a flat one. The distortion increases as you move towards the poles, making areas like Greenland and Antarctica appear larger than they actually are.
they appear as straight lines.i needed help w this (?] too shoooot.aha,
Cylindrical
A cylindrical map projection in which the meridians and parallels of latitude appear as lines crossing at right angles and in which areas appear greater farther from the equator.conic
On a Mercator projection, meridians appear as straight, parallel lines running from top to bottom of the map, spaced evenly apart. This is because the Mercator projection is a cylindrical map projection that preserves straight lines of constant bearing, resulting in meridians being stretched vertically towards the poles.
Because of distortion
The Mercator projection is a cylindrical projection, where the meridians are equally spaced vertical lines and the parallels are horizontal lines parallel to the equator. It distorts the size of land masses as they get farther from the equator, making areas like Greenland appear much larger than they actually are.
The Mercator projection is a cylindrical map projection that distorts the size of land masses as they get closer to the poles, making areas near the poles appear larger than they actually are. This projection is commonly used in marine navigation due to its ability to maintain straight lines of constant bearing.
Gerardus Mercator is famous for creating the Mercator projection, a cylindrical map projection introduced in 1569. This projection became highly influential for navigational purposes due to its ability to represent lines of constant course as straight lines.
A Mercator map is a cylindrical map projection that distorts the size of objects as the latitude increases from the equator towards the poles. This means that areas near the poles appear larger than they actually are.
Lines of longitude are referred to as meridians and appear as parallel lines on a globe. These lines converge at the poles and are evenly spaced around the globe from the Prime Meridian at 0 degrees to the 180th meridian.
On a globe, parallels and meridians do not intersect at right angles; only the equator and the prime meridian intersect perpendicular to each other. On a Mercator projection map, the meridians appear as straight lines converging at the poles, while the parallels are equally spaced horizontally, giving the illusion that they intersect at right angles, when in reality that is not the case.
Polar azimuthal maps or polar projections distort landmasses near the poles due to the nature of projecting a spherical surface onto a flat one. The distortion increases as you move towards the poles, making areas like Greenland and Antarctica appear larger than they actually are.