i don’t know
Meridians are typically shown as straight lines radiating out from the center point of the polar projection map. They converge at the poles and represent lines of longitude, which help to indicate direction and location on the map. These meridians help users navigate and understand the spatial relationships on the polar projection.
Meridians on a cylindrical projection appear as straight vertical lines on the map, while meridians on a globe are smooth curves meeting at the poles. The distortion of meridians increases as you move away from the equator on a cylindrical projection, making them seem more elongated.
they appear as straight lines.i needed help w this (?] too shoooot.aha,
On a globe, parallels and meridians meet at right angles only at the equator and the poles. On a Mercator projection map, all meridians intersect the equator at right angles, while parallels intersect meridians at right angles throughout the map.
The type of cylindrical map projection that fits this description is the Mercator projection. It is commonly used for navigation purposes due to its property of showing straight meridians and parallels that intersect at right angles, although it does distort the sizes of landmasses at higher latitudes.
A map with parallel meridians is called a conic projection map. This type of projection is often used for mapping smaller regions or countries, as it maintains accurate shapes and angles near the standard lines of latitude.
Meridians are typically shown as straight lines radiating out from the center point of the polar projection map. They converge at the poles and represent lines of longitude, which help to indicate direction and location on the map. These meridians help users navigate and understand the spatial relationships on the polar projection.
Meridians on a cylindrical projection appear as straight vertical lines on the map, while meridians on a globe are smooth curves meeting at the poles. The distortion of meridians increases as you move away from the equator on a cylindrical projection, making them seem more elongated.
The parallels of latitude and the meridians of longitude are all straight lines on the Mercator projection. That's why Greenland looks bigger than South America.
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.
they appear as straight lines.i needed help w this (?] too shoooot.aha,
On a globe, parallels and meridians meet at right angles only at the equator and the poles. On a Mercator projection map, all meridians intersect the equator at right angles, while parallels intersect meridians at right angles throughout the map.
The type of cylindrical map projection that fits this description is the Mercator projection. It is commonly used for navigation purposes due to its property of showing straight meridians and parallels that intersect at right angles, although it does distort the sizes of landmasses at higher latitudes.
Meridians of longitude; parallels of latitude. Remember that meridians are all the same length (20,000 km) and that they meet at the poles. Parallels are, well, parallel, and are different lengths, the longest being the Equator.
mercator projection are mostly used by navigator because all meridians appears as astraiht line
mercator projection are mostly used by navigator because all meridians appears as astraiht line
Meridians Meridians ;p