Iron is a metal that is commonly found combined with other elements to form compounds or minerals, such as in iron oxide minerals like hematite or magnetite.
The metal found in Cerro Rico is silver. This mountain in Bolivia has historically been a major source of silver and other minerals.
No, feldspar is not a metal. It is a group of minerals that are commonly found in the Earth's crust, and they are typically made up of aluminum, silicon, and oxygen.
Tungsten is a hard, dark, heavy metal that is non-magnetic.
No. No, sulfur is not magnetic.
Iron
Minerals found in the ground.
When heated, the thermal energy supplied to the metal causes the thermal motion of its atoms to increase, disrupting the alignment of their magnetic moments. This disrupts the collective magnetic behavior that gives the metal its magnetic properties. As a result, the metal loses its magnetism when heated.
Earth's magnetic field is produced by the dynamo effectin the liquid metal outer core.
No type of magnetic mineral found in nature is properly called "platinum" by a chemist, because platinum is a chemical element and is not magnetic! The most common magnetic mineral found in nature is called "magnetite". It contains both iron (II) and iron (III) oxides in nearly constant proportions.
magnetic force?
Silver is found as free metal, or in minerals of other metals.
No, iron is not the only magnetic metal. Other magnetic metals include nickel, cobalt, and some alloys of rare earth metals. These metals can be magnetized and exhibit magnetic properties due to the alignment of their atomic structure.
Yes a metal detector can see all minerals found in the soil and can control the type of article that we want to look like gold and silver so as not to give the alert detector on these minerals
metal like iron stanlium are found in outer core
A body that attracts other metals is a magnet. Magnets possess a magnetic field that causes other magnetic materials, such as iron, nickel, and cobalt, to be attracted towards them. This attraction is a result of the alignment of magnetic domains within the metals in response to the external magnetic field produced by the magnet.
When a metal object is brought near a compass, it can disrupt the Earth's magnetic field around the compass. This disruption causes the compass needle to align itself with the new magnetic field created by the metal object, resulting in a change in direction.