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Formation of Ions

Ions are made when electrons are transferred

  • Ions are charged particles-they can be single atoms or groups of atoms

  • When atoms lose of gain electrons to form ions, all they’re trying to do is get a full outer shell like a noble gas

    • Atoms with full outer shell are very stable

  • When metals form ions, they lose electrons from their outer shell to form positive ions

  • When non-metals form ions, they gain electrons into their outer shell to form negative ions

  • The number of electrons lost or gained is the same as the charge on the ion

    • E.g. If 2 electrons are lost the charge is 2+.

    • If 3 electrons are gained the charge is 3-

Groups 1&2 and 6&7 are the most likely to form ions

  • The elements that most readily form ions are those in Group 1,2,6 and 7

  • Group 1 and 2 elements are metals and they lose electrons to form positive ions(cations)

  • Group 6 and 7 elements are non-metals and they gain electrons to form negative ions(anions)

  • You don’t have to remember what ions most elements form

    • You just look at the periodic table

  • Elements in the same group all have the same number of outer electrons

  • So they have to lose or gain the same number to get a full outer shell

    • This means that they form ions with the same charges

  • Group 1 elements form 1+ ions

  • Group 2 elements form 2+ ions

  • Group 6 elements form 2- ions

  • Group 7 elements form 1- ions

Examples of formation:

  • A sodium atom is in Group 1 so it loses 1 electron to form a sodium ion with the same electronic structure as a neon

    • Na-Na+ + e-

  • A magnesium atom is in Group 2 so it loses 2 electrons to form a magnesium ion with the same electronic structure as neon

    • Mg-Mg2+ + 2e-

  • A chlorine atom is in Group 7 so it gains 1 electron to form a chloride ion with the same electronic structure as argon

    • Cl + e- - cl-

  • An oxygen atom is in Group 6 so it gains 2 electrons to form an oxide ion with the same electronic structure as neon

    • O + 2e- - O2-

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Biology - AQA
Biology - AQA

Formation of Ions

Ions are made when electrons are transferred

  • Ions are charged particles-they can be single atoms or groups of atoms

  • When atoms lose of gain electrons to form ions, all they’re trying to do is get a full outer shell like a noble gas

    • Atoms with full outer shell are very stable

  • When metals form ions, they lose electrons from their outer shell to form positive ions

  • When non-metals form ions, they gain electrons into their outer shell to form negative ions

  • The number of electrons lost or gained is the same as the charge on the ion

    • E.g. If 2 electrons are lost the charge is 2+.

    • If 3 electrons are gained the charge is 3-

Groups 1&2 and 6&7 are the most likely to form ions

  • The elements that most readily form ions are those in Group 1,2,6 and 7

  • Group 1 and 2 elements are metals and they lose electrons to form positive ions(cations)

  • Group 6 and 7 elements are non-metals and they gain electrons to form negative ions(anions)

  • You don’t have to remember what ions most elements form

    • You just look at the periodic table

  • Elements in the same group all have the same number of outer electrons

  • So they have to lose or gain the same number to get a full outer shell

    • This means that they form ions with the same charges

  • Group 1 elements form 1+ ions

  • Group 2 elements form 2+ ions

  • Group 6 elements form 2- ions

  • Group 7 elements form 1- ions

Examples of formation:

  • A sodium atom is in Group 1 so it loses 1 electron to form a sodium ion with the same electronic structure as a neon

    • Na-Na+ + e-

  • A magnesium atom is in Group 2 so it loses 2 electrons to form a magnesium ion with the same electronic structure as neon

    • Mg-Mg2+ + 2e-

  • A chlorine atom is in Group 7 so it gains 1 electron to form a chloride ion with the same electronic structure as argon

    • Cl + e- - cl-

  • An oxygen atom is in Group 6 so it gains 2 electrons to form an oxide ion with the same electronic structure as neon

    • O + 2e- - O2-