What is the difference between an alloy and a compound?

description Alloy : An alloy is a mixture of at least two elements with one of those elements being a metal. Alloys can be in both liquid and solid forms. Composite:   A composite is a assortment of two or more elements, but it does not contain metals in its composition. The components in a complex are constantly chemically and physically different from one another.

Compound: A compound is a chemical substance composed of many identical molecules composed of atoms from more than one element held together by chemical bonds. Bonds Alloy : sometimes alloys do not have bonds between them. Composite : Composite normally has bonds between molecules. Compound : Just like composite, compounds normally have bonds between molecules. Chemical Reaction Alloy : Elements of an debase do not combine through a chemical reaction. The mix is generally done at very senior high school temperature where the elements and metals are melted, blend and left to cool. Composite : A chemical reaction is involved in mixing the constituent elements of a composite. Compound : It is not possible to obtain a colonial by just mixing few elements together, but they are only accomplishable through a specific chemical reaction. physical Properties Alloy : The alloy has physical properties intermediate between those of the component metals ; but the chemical properties of each element persist unaffected. Composite : The components in a composite are besides constantly chemically and physically different from one another. Compound : All compounds have fixed properties i.e have a definite chemical composition, the chemical properties of each element is affected. appearance Alloy : Alloys have a shininess due the presence of alloy. Composite : Do not have a luster. Compound : compound can have a luster or not. separation of Constituent Elements Alloy : The component elements that make up an alloy can be separated by physical means such as melting.

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Composite : The component elements that make up a composite can lone be separated through extraction or electrochemical methods. Compound : The constituent elements that make up a compound can only be separated through extraction or electrochemical methods. Melting and Boiling Points Alloy : The melt and melting points of an debase is not always defined, alloys can be boiled or melted at unlike temperatures. Composite : composite can be boiled and melted a definite temperature. Compound : The thaw and boiling points of a intensify is always defined, they can be boiled or melted at a definite temperature. conduction Alloy : Almost all alloys are good conductors of electricity due to presence of a alloy. Composite : polymeric composites can conduct electricity whereas others are poor conductors. Compound : Compounds with metallic elements are good conductors of electricity whereas compounds whose constituents are nonmetallic elements are hapless conductors of electricity. writing Alloy : Alloys always have at least one metal chemical element. Composite : Composites do not have any metal atoms. Compound : Compounds are either all metals or all non-metals. uniformity Alloys : Alloys can either be homogeneous or heterogenous. Composite : Composite is constantly heterogeneous and will never form a homogeneous concoction. Compound : compound is constantly homogeneous. common Examples

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Alloy : exercise of alloys include steel, Bronze, Brass, pewter, cast and wrough iron, duralumin, monel, solder and sterling ash grey. Composite : Examples of composite materials include composite wood such as plywood, fiberglass, ceramic complex and concrete. Compounds : Examples of compounds include water, sodium chloride, magnesium oxide, potassium chloride, bull II sulfate, hydrogen chloride etc .