![cover image](https://wikiwandv2-19431.kxcdn.com/_next/image?url=https://upload.wikimedia.org/wikipedia/commons/thumb/e/eb/Kreiselkompass_Schnitt_Ansch%25C3%25BCtz.jpg/640px-Kreiselkompass_Schnitt_Ansch%25C3%25BCtz.jpg&w=640&q=50)
Gyrocompass
Type of non-magnetic compass based on the rotation of the Earth / From Wikipedia, the free encyclopedia
A gyrocompass is a type of non-magnetic compass which is based on a fast-spinning disc and the rotation of the Earth (or another planetary body if used elsewhere in the universe) to find geographical direction automatically. A gyrocompass makes use of one of the seven fundamental ways to determine the heading of a vehicle.[1] A gyroscope is an essential component of a gyrocompass, but they are different devices; a gyrocompass is built to use the effect of gyroscopic precession, which is a distinctive aspect of the general gyroscopic effect.[2][3] Gyrocompasses, such as the fibre optic gyrocompass are widely used to provide a heading for navigation on ships.[4] This is because they have two significant advantages over magnetic compasses:[3]
- they find true north as determined by the axis of the Earth's rotation, which is different from, and navigationally more useful than, magnetic north, and
- they have a greater degree of accuracy because they are unaffected by ferromagnetic materials, such as in a ship's steel hull, which distort the magnetic field.[4]
![Thumb image](http://upload.wikimedia.org/wikipedia/commons/thumb/e/eb/Kreiselkompass_Schnitt_Ansch%C3%BCtz.jpg/640px-Kreiselkompass_Schnitt_Ansch%C3%BCtz.jpg)
![Thumb image](http://upload.wikimedia.org/wikipedia/commons/thumb/6/66/Algonquin_gyro_compass2.jpg/640px-Algonquin_gyro_compass2.jpg)
Aircraft commonly use gyroscopic instruments (but not a gyrocompass) for navigation and attitude monitoring; for details, see flight instruments (specifically the heading indicator) and gyroscopic autopilot.