It sticks
Ferromagnetic materials are made of iron. Iron can be magnetized with proximity to other magnets. The core of the Earth is magnetic. As a result, magnets can be created without interference.
They will combine to make a single magnetic field.
Magnetic metals especially Iron, Nickel and Cobalt are only found in microscopic quantities in humans. As a result magnets will not stick to normal healthy humans.
Boulder fields could be caused by volcano ejecta, but are normally the result of deposition by glaciers which once carried them suspended in their ice. Upon melting, the boulders and rock debris are dropped in place.
A magnetic field is a area in which magnetic objects are pushed or pulled. It is caused by the alignment of parts of atoms.A field of force associated with changing electric fields , as when electric charges are in motion. Magnetic fields exert deflective forces on moving electric charges. Most magnets have magnetic fields as a result of the spinning motion of the electrons orbiting the atoms of which they are composed; electromagnets create such fields from electric current moving through coils. Large objects, such as the earth, other planets, and stars, also produce magnetic fields. See Note at magnetism.
Magnets exert magnetic fields, as do electrical currents through wire. These magnetic fields have no impact on water transport through plant tissues, or on any of the minerals plants take up from the soil. Nor would magnets improve the process of photosynthesis. Theoretically, magnets should not have any impact on plant growth. Of course, this would need to be tested, preferably in a double blind experiment to rule out any effect of bias contamination of the results. Three groups of plants--one with magnets, one with non magnetic masses of roughly the same mass and density in place of the magnets, and a third control group with neither magnets or fake magnets should be grown in homogeneous soil, subject to equal measures of sunlight and water. The expected result would be no statistically significant difference in germination rate, plant growth, flower and fruit production, or overall plant longevity.
The correct answer is ''Interference"
Ferromagnetic materials are made of iron. Iron can be magnetized with proximity to other magnets. The core of the Earth is magnetic. As a result, magnets can be created without interference.
ALL magnets are the result of moving electrons. A simple copper coil carrying an electric current demonstrates the simplest form.Permanent magnets are those materials in which a number of the electrons share a similar spin.Commonly reference is made to the magnetic loops of plasma on the surface of the Sun, but at a temperature of over 50 000 deg C, there are no magnetic materials. These magnetic fields are the result of electric currents flowing near the surface of the sun.The magnetic field of the Earth is generated by electric currents flowing roughly parallel with the equator. or rather, the net result of many electric currents flowing around the Earth - probably in the magma.But the ordinary permanent magnets are indeed made of particular elements in which the 'magnetic domains' may be aligned in parallel.
Ferromagnetic materials are made of iron. Iron can be magnetized with proximity to other magnets. The core of the Earth is magnetic. As a result, magnets can be created without interference.
They will combine to make a single magnetic field.
Depends on what it's made of and how much heat. There's something called the "Curie point", which is different for every material, and above the Curie temperature permanent magnets lose the alignment of magnetic moments that makes them permanent magnets. They may spontaneously realign if cooled, but the magnet will likely be weaker than it was originally. Curie temperatures for common magnets are generally fairly high (at least several hundred degrees).
A p bond is the result of the sideways overlap of two parallel p orbitals.
No. No moon has strong magnetic fields that result in "poles" like Earth ... but they often do have weak magnetic fields.
This is the basis of Organic Chemistry. An sp3 hybrid orbital can overlap with another and the result is a COVALENT bond
Magnetic metals especially Iron, Nickel and Cobalt are only found in microscopic quantities in humans. As a result magnets will not stick to normal healthy humans.
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