NaBr, or sodium bromide, is an ionic compound composed of the sodium (Na+) and bromide (Br-) ions. It is an important halogen compound that has various applications and properties related to ionic and molecular compounds, as well as the occurrence, preparation, and properties of halogens.
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NaBr is an ionic compound formed by the combination of the sodium (Na+) and bromide (Br-) ions.
Sodium bromide is a white, crystalline solid that is highly soluble in water and has a wide range of applications, including in medicine, photography, and flame retardants.
Bromine, the element that forms the bromide ion in NaBr, is a dense, reddish-brown liquid halogen that is the third most reactive element.
NaBr is an important source of bromine, which is used in the production of various organic and inorganic compounds.
Sodium bromide is commonly used as a sedative and anticonvulsant in medicine, due to its ability to depress the central nervous system.
Review Questions
Explain how the ionic nature of NaBr relates to its properties and applications in the context of ionic and molecular compounds.
As an ionic compound, NaBr is composed of a positively charged sodium ion (Na+) and a negatively charged bromide ion (Br-). This ionic bonding results in NaBr having high melting and boiling points, as well as high solubility in water, which allows it to be used in various applications. The ionic nature of NaBr also contributes to its ability to dissociate in water, forming a solution of sodium and bromide ions that can be used in medical and industrial applications.
Describe the role of bromine, the halogen element in NaBr, in the context of the occurrence, preparation, and properties of halogens.
Bromine, the element that forms the bromide ion in NaBr, is a member of the halogen group in the periodic table. Halogens are highly reactive nonmetals that occur naturally in the environment, often as compounds with other elements. Bromine, in particular, is a dense, reddish-brown liquid that is the third most reactive halogen. The preparation of NaBr often involves the reaction of bromine with sodium, and the properties of bromine, such as its high reactivity, contribute to the unique characteristics and applications of NaBr as an ionic compound.
Analyze the significance of NaBr in the context of both ionic and molecular compounds, as well as the occurrence, preparation, and properties of halogens.
NaBr, as an ionic compound, is an important example of how the combination of a metal (sodium) and a nonmetal (bromine) can result in a stable, crystalline substance with distinct physical and chemical properties. The ionic nature of NaBr, with its high melting and boiling points and solubility in water, makes it useful in various applications. At the same time, the bromine component of NaBr links it to the broader properties and characteristics of halogens, such as their high reactivity and diverse uses. The occurrence, preparation, and unique properties of NaBr demonstrate the interconnectedness of ionic and molecular compounds with the fundamental behavior and applications of halogens in the field of chemistry.
Related terms
Ionic Compound: An ionic compound is a chemical compound composed of two or more ions held together by electrostatic forces, typically formed from a metal and a nonmetal.
Halogen: Halogens are a group of five elements in the periodic table (fluorine, chlorine, bromine, iodine, and astatine) that are highly reactive nonmetals.
Sodium Ion: The sodium ion (Na+) is a positively charged ion of the element sodium, which is a soft, silvery-white alkali metal.