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What else can I help you with?
What is magnetites smell?
no smell
Who is the person who invented magnets?
Nobody invented magnets because magnets and magnetic principles are found in nature. a first MAGNET was not invented, but rather were found from naturally occurring MINERALS called "MAGNETITES or "LODESTONES".
What can magnetite attract?
Anything ferrous (containing Iron)no, Copper is not magnetic unless it is mixed with a magnetic metal, such as iron or nickel.Answer:The new Neodymium magnets are strong enough to interact with copper or aluminum. A disk Neodnium magnet will slide down a sheet of copper or aluminum much slower than a comparably sized disk of other material. This results from electric currents being set up in the metal by the passing magnet. The resulting magnetic field holds the magnet. Similarly a Neodymium will attract a penny as it is pulled away from it due to transient electric currents.
How are magnets made out of?
Magnets are made by aligning the magnetic domains of a material, such as iron or neodymium, through processes like heating or using strong magnetic fields. This alignment of domains creates a magnetic field in the material, giving it its magnetic properties.
Do pigeons have some sort of natural magnet in their heads for estimate of direction?
Orientation and navigationNavigation is based on a variety of senses. Many birds have been shown to use a sun compass. Using the sun for direction involves the need for making compensation based on the time. Navigation has also been shown to be based on a combination of other abilities including the ability to detect magnetic fields (magnetoception), use visual landmarks as well as olfactory cues.Long distance migrants are believed to disperse as young birds and form attachments to potential breeding sites and to favourite wintering sites. Once the site attachment is made they show high site-fidelity, visiting the same wintering sites year after year.The ability of birds to navigate during migrations cannot be fully explained by endogenous programming, even with the help of responses to environmental cues. The ability to successfully perform long-distance migrations can probably only be fully explained with an accounting for the cognitive ability of the birds to recognize habitats and form mental maps. Satellite tracking of day migrating raptors such as Ospreys and Honey Buzzards has shown that older individuals are better at making corrections for wind drift.As the circannual patterns indicate, there is a strong genetic component to migration in terms of timing and route, but this may be modified by environmental influences. An interesting example where a change of migration route has occurred because of such a geographical barrier is the trend for some Blackcaps in central Europe to migrate west and winter in Britain rather than cross the Alps.Migratory birds may use two electromagnetic tools to find their destinations: one that is entirely innate and another that relies on experience. A young bird on its first migration flies in the correct direction according to the Earth's magnetic field, but does not know how far the journey will be. It does this through a radical pair mechanism whereby chemical reactions in special photo pigments sensitive to long wavelengths are affected by the field. Note that although this only works during daylight hours, it does not use the position of the sun in any way. At this stage the bird is similar to a boy scout with a compass but no map, until it grows accustomed to the journey and can put its other facilities to use. With experience they learn various landmarks and this "mapping" is done by magnetites in the trigeminal system, which tell the bird how strong the field is. Because birds migrate between northern and southern regions, the magnetic field strengths at different latitudes let it interpret the radical pair mechanism more accurately and let it know when it has reached its destination. More recent research has found a neural connection between the eye and "Cluster N", the part of the forebrain that is active during migrational orientation, suggesting that birds may actually be able to see the magnetic field of the earth.VagrancyMigrating birds can lose their way and occur outside their normal ranges. These can be due to flying past their destinations as in the "spring overshoot" in which birds returning to their breeding areas overshoot and end up further north than intended. A mechanism which can lead to great rarities turning up as vagrants thousands of kilometers out of range is reverse migration, where the genetic programming of young birds fails to work properly. Certain areas, because of their location, have become famous as watch points for migrating birds. Examples are the Point Pelee National Park in Canada, and Spurn in England. Drift migration of birds blown off course by the wind can result in "falls" of large numbers of migrants at coastal sites.
