You need different atoms...?
yes, all alloys do conduct electricity due to the conductivity of their metals.
No single piece of metal will produce electricity when heated. You will need two different metals, mechanically touching. When the join between the metals is heated, it will produce electricity, dependant on the metals used. This is known as a 'thermocouple'.
Steel, iron, copper, aluminum and all other metals conduct electricity very well compared to most other compounds. With the discoveries in solid state physics of the 20th century we learned that metals are collections of atoms which have somewhat unusually properties of the electrons. In metals the outermost electron (sometimes two) is not specifically associated with that one atom but is free to associate with atoms far and wide. We say these are delocalized electrons. Since the electrons are not attached to specific atoms, it takes very little energy to move them. As a result, any small voltage causes electron flow in a metal. This movement or flow of electrons is called electricity so this is why metals conduct electricity. Aside: Metals are not the only materials that conduct electricity, they just do it especially well.
Metalloids, also called semimetals, have the characteristics of both metals and non-metals. Three characterics of metalloids are insulate, conduct electricity, and its elements are Silicon and Boron.
Iron, like all metals, has electrons in its outer shell that are not tightly bound to the nucleus. Compared to non-metals, it's easy for one or more electrons to escape from the outer shell and move freely in the metal's crystal lattice. It's this population of free electrons that can be "recruited" and made to move in a particular direction, that makes metals good conductors. Iron is a so-so conductor, but it's not as good as copper or silver.
All metals conduct electricity.All metals conduct electricity.All metals conduct electricity.All metals conduct electricity.
Astatine is not a good conductor of electricity. This is because it is a non-metal. All non-metals do not conduct electricity, and all metals do. The two exceptions are carbon and silicon, which are non-metals, but conduct electricity well.
That would be impossible to do because all metals conduct electricity. It is one of the fundamental properties that metals possess.
yes, all alloys do conduct electricity due to the conductivity of their metals.
Metals and Nonmetals have specific characteristics. Two characteristics of Nonmetals are typically brittle and do not shape easily, and they do not conduct heat or electricity well.
All metals Conduct:Tin, steel, iron, copper, aluminum, zinc, gold, silver and all other metals conduct electricity very well compared to most other compounds. (These pure metals conduct, but when they are used to form compounds, the result may of may not conduct electricity.)Why metals conduct:With the discoveries in solid state physics of the 20th century we learned that metals are collections of atoms which have somewhat unusually properties of the electrons. In metals the outermost electron (sometimes two) is not specifically associated with that one atom but is free to associate with atoms far and wide. We say these are delocalized electrons. Since the electrons are not attached to specific atoms, it takes very little energy to move them. As a result, any small voltage causes electron flow in a metal.This movement or flow of electrons is called electricity so this is why metals conduct electricity.Aside: Metals are not the only materials that conduct electricity, they just do it especially well.All metals Conduct:Tin, steel, iron, copper, aluminum, zinc, gold, silver and all other metals conduct electricity very well compared to most other compounds. (These pure metals conduct, but when they are used to form compounds, the result may of may not conduct electricity.)Why metals conduct:With the discoveries in solid state physics of the 20th century we learned that metals are collections of atoms which have somewhat unusually properties of the electrons. In metals the outermost electron (sometimes two) is not specifically associated with that one atom but is free to associate with atoms far and wide. We say these are delocalized electrons. Since the electrons are not attached to specific atoms, it takes very little energy to move them. As a result, any small voltage causes electron flow in a metal.This movement or flow of electrons is called electricity so this is why metals conduct electricity.Aside: Metals are not the only materials that conduct electricity, they just do it especially well.
All metals Conduct:Tin, steel, iron, copper, aluminum, zinc and all other metals conduct electricity very well compared to most other compounds. (These pure metals conduct, but when they are used to form compounds, the result may of may not conduct electricity.)Why metals conduct:With the discoveries in solid state physics of the 20th century we learned that metals are collections of atoms which have somewhat unusually properties of the electrons. In metals the outermost electron (sometimes two) is not specifically associated with that one atom but is free to associate with atoms far and wide. We say these are delocalized electrons. Since the electrons are not attached to specific atoms, it takes very little energy to move them. As a result, any small voltage causes electron flow in a metal.This movement or flow of electrons is called electricity so this is why metals conduct electricity.Aside: Metals are not the only materials that conduct electricity, they just do it especially well.
No single piece of metal will produce electricity when heated. You will need two different metals, mechanically touching. When the join between the metals is heated, it will produce electricity, dependant on the metals used. This is known as a 'thermocouple'.
Steel, iron, copper, aluminum and all other metals conduct electricity very well compared to most other compounds. With the discoveries in solid state physics of the 20th century we learned that metals are collections of atoms which have somewhat unusually properties of the electrons. In metals the outermost electron (sometimes two) is not specifically associated with that one atom but is free to associate with atoms far and wide. We say these are delocalized electrons. Since the electrons are not attached to specific atoms, it takes very little energy to move them. As a result, any small voltage causes electron flow in a metal. This movement or flow of electrons is called electricity so this is why metals conduct electricity. Aside: Metals are not the only materials that conduct electricity, they just do it especially well.
Because covalent bonds are between elements without metallic properties, and in order for a bond to conduct electricity, the bond has to include two metals, AKA a metallic bond.
All it needs is some kind of metal in the substance.
Steel, iron, copper, aluminum and all other metals conduct electricity very well compared to most other compounds. With the discoveries in solid state physics of the 20th century we learned that metals are collections of atoms which have somewhat unusually properties of the electrons. In metals the outermost electron (sometimes two) is not specifically associated with that one atom but is free to associate with atoms far and wide. We say these are delocalized electrons. Since the electrons are not attached to specific atoms, it takes very little energy to move them. As a result, any small voltage causes electron flow in a metal. This movement or flow of electrons is called electricity so this is why metals conduct electricity. Aside: Metals are not the only materials that conduct electricity, they just do it especially well.