Alloys are harder than pure metals because their molecular structure prevents the metal atoms from sliding over one another. Conversely, alloys have lower electrical and thermal conductivity than pure metals.Know More
While most alloys are synthetic, in rare instances, they can also occur in nature. Meteoric iron is a natural alloy of iron and nickel, and is the first alloy used by humans. Meteoric iron is the metal component of meteorites; the iron and nickel combine into an alloy due to radioactive processes in space. Another example of a naturally-occurring alloy is electrum, a natural alloy of gold, silver and copper. Its use in jewelry dates back to ancient Greece.
The earliest recorded synthetic alloys are bronze, brass and pewter. Bronze is an alloy of copper and tin, brass is an alloy of copper and zinc, and pewter is a range of alloys consisting of tin and a second component metal. Lead, copper, antimony and bismuth are all used as secondary components of pewter. Steel alloys and mercury amalgam also date back thousands of years.
Not all alloy components are metals, though all alloys do contain at least two metals. All steel alloys contain carbon, as do non-alloy forms of iron such as cast iron and pig iron. These forms of iron are not considered alloys, because the only metal present in them is iron.Learn more about Chemistry
Each of the alkaline earth metals reacts with HCl, also known as hydrochloric acid, to form hydrogen gas and its corresponding metal chloride solution. The reaction becomes stronger the further down the group the element is on the periodic table.Full Answer >
The element potassium is a metal and it belongs to Group 1, which consists of the alkali metals. Potassium is soft and silver-white in appearance. Its chemical symbol is K, and it has an atomic number of 19.Full Answer >
Not all metal rusts, but the metals that do rust do so because of an oxidation reaction between the metal and water and oxygen. Oxidation is the process by which a substance incorporates oxygen into its molecular structure.Full Answer >
The unique structure of the transition metals causes them to form brightly colored compounds. This structure affects the way light is absorbed, transmitted and reflected. The oxidation state of the particular element affects the colors of the compounds it forms.Full Answer >