Polaris is a star, not located on the surface of the Earth, so it doesn't have a longitude.
No connection whatsoever. The altitude of Polaris as seen from anywherein the northern hemisphere is roughly equal to the observer's latitude, andis independent of longitude.
Polaris is a star, not located on the surface of the Earth, so it doesn't have a longitude.
180° north longitude
Longitude proved more difficult to determine because longitude was based in the concept of time, making clocks an important variable in navigation. The time and distance in addition to the use of the sextant for latitude proved more difficult than measuring the latitude.
The Prime Meridian is by definition 0 degrees longitude. So that part is a given simply because you're at the Prime Meridian. Polaris is directly over the North axial pole. If you were at the equator, Polaris would be right at the horizon (zero degrees above the horizon). If you moved 10 degrees north, Polaris would appear above the horizon by the same amount. So if Polaris is 50 degrees above the horizon, you must be 50 degrees north of the equator (meaning you're at 50 degrees North latitude).
No connection whatsoever. The altitude of Polaris as seen from anywherein the northern hemisphere is roughly equal to the observer's latitude, andis independent of longitude.
Polaris is a star, not located on the surface of the Earth, so it doesn't have a longitude.
The altitude of Polaris is roughly equal to your north latitude. Your longitude has no effect on it.At 35 degrees south latitude, the altituide of Polaris is negative 35 degrees. In other words,it's 35 degrees below the point on the horizon due north of you, and you can't see it.
180° north longitude
You can always find your latitude and longitude by getting a 3-star celestial fix; as long as you have a sextant and an accurate timepiece.If you are looking for a one-star observation to determine your latitude, then you would need to be able to see Polaris, the north star. Polaris cannot be observed anywhere south of about 3 degrees north latitude. (Polaris is not EXACTLY above the North Pole, so in order to get an accurate reading of your longitude, you would still need a nautical almanac and a watch.)But with a watch, a sextant and a nautical almanac, you could do a "local apparent noon" observation of the Sun, and determine both your latitude and longitude quite precisely from one sighting.
Longitude proved more difficult to determine because longitude was based in the concept of time, making clocks an important variable in navigation. The time and distance in addition to the use of the sextant for latitude proved more difficult than measuring the latitude.
polaris useful becaused polaris forecast weather
No. Polaris is a multiple star system. In the late 18th century it was resolved into two components, Polaris A and Polaris B. Later, Polaris A was resolved further into Polaris Aa and Polaris Ab. Neither Polaris Aa nor Polaris Ab are red giants. Aa is a supergiant and Ab is a dwarf; both of them are spectral class F ("yellow-white").
No. Polaris is a multiple star system. In the late 18th century it was resolved into two components, Polaris A and Polaris B. Later, Polaris A was resolved further into Polaris Aa and Polaris Ab. Neither Polaris Aa nor Polaris Ab are red giants. Aa is a supergiant and Ab is a dwarf; both of them are spectral class F ("yellow-white").
i think polaris
The machine is designed by Polaris and built by Aeon.
The Prime Meridian is by definition 0 degrees longitude. So that part is a given simply because you're at the Prime Meridian. Polaris is directly over the North axial pole. If you were at the equator, Polaris would be right at the horizon (zero degrees above the horizon). If you moved 10 degrees north, Polaris would appear above the horizon by the same amount. So if Polaris is 50 degrees above the horizon, you must be 50 degrees north of the equator (meaning you're at 50 degrees North latitude).