A chemical bond is an attraction between atoms. Everything in nature wants to be stable. For atoms, this means having a full outer shell of electrons. To do this, atoms need to have the electron structure of one of the unreactive noble gases. These are the elements in the group at the extreme right hand end of the most commonly used periodic table. There are different ways of numbering the groups of the periodic table. A common convention is that the number of electrons in the outer shell = the number of the group. If you study chemistry to higher levels, you will find that this is no longer... Show more A chemical bond is an attraction between atoms. Everything in nature wants to be stable. For atoms, this means having a full outer shell of electrons. To do this, atoms need to have the electron structure of one of the unreactive noble gases. These are the elements in the group at the extreme right hand end of the most commonly used periodic table. There are different ways of numbering the groups of the periodic table. A common convention is that the number of electrons in the outer shell = the number of the group. If you study chemistry to higher levels, you will find that this is no longer the case other than for groups 1 and 2, so most schools teach that the noble gases are in group 8, but a few call it group 0 or group 18. To achieve this, atoms give away electrons to other atoms; some will take electrons from other atoms and some will share their outer electrons with other atoms. How atoms achieve states of stability determines which types of bonding they undertake; whether it be covalent or ionic. There are other types of bonding too but you will only need to learn about covalent, ionic and metallic bonding for most high school exams. The type of bonding also determines the structure of a material. Covalently bonded compounds usually form individual molecules but there are some covalent substances, like diamond and graphite, which have giant structures. Ionic compounds are never found as molecules, they are always giant lattices that sometimes form very beautiful crystals. In the right circumstances, crystals can be enormous - there are people who make a living from finding and selling these. Bonding also gives rise to the properties of substances like hardness, solubility in water, melting point and boiling point but it is not always clear-cut - there are some molecules that behave partly like ionic compounds and vice versa. Understanding bonding can help you to understand the behaviour of chemicals as well as helping you to predict and explain the behaviour of unknown substances. Related Tests: GCSE Chemistry Practice Test: Covalent Bonding - Atoms Sharing Electrons GCSE Chemistry Practice Test: Ionic Bonding - Joining Metal and Nonmetal Atoms GCSE Chemistry Practice Test: Metallic Bonding - Delocalised Electrons Show less
A chemical bond is an attraction between atoms. Everything in nature wants to be stable. For atoms, this means having a full outer shell of electrons. To do this, atoms need to have the electron structure of one of the unreactive noble gases. These are the elements in the group at the extreme right hand end of the most commonly used periodic table. There are different ways of numbering the groups of the periodic table.
A common convention is that the number of electrons in the outer shell = the number of the group. If you study chemistry to higher levels, you will find that this is no longer the case other than for groups 1 and 2, so most schools teach that the noble gases are in group 8, but a few call it group 0 or group 18.
To achieve this, atoms give away electrons to other atoms; some will take electrons from other atoms and some will share their outer electrons with other atoms. How atoms achieve states of stability determines which types of bonding they undertake; whether it be covalent or ionic. There are other types of bonding too but you will only need to learn about covalent, ionic and metallic bonding for most high school exams.
The type of bonding also determines the structure of a material. Covalently bonded compounds usually form individual molecules but there are some covalent substances, like diamond and graphite, which have giant structures. Ionic compounds are never found as molecules, they are always giant lattices that sometimes form very beautiful crystals. In the right circumstances, crystals can be enormous - there are people who make a living from finding and selling these.
Bonding also gives rise to the properties of substances like hardness, solubility in water, melting point and boiling point but it is not always clear-cut - there are some molecules that behave partly like ionic compounds and vice versa. Understanding bonding can help you to understand the behaviour of chemicals as well as helping you to predict and explain the behaviour of unknown substances.
Related Tests:
GCSE Chemistry Practice Test: Covalent Bonding - Atoms Sharing Electrons
GCSE Chemistry Practice Test: Ionic Bonding - Joining Metal and Nonmetal Atoms
GCSE Chemistry Practice Test: Metallic Bonding - Delocalised Electrons
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