Electrostatic attraction between unlike charges, sometimes called a coulombic attraction
Ions form ionic bonds due to charge attraction.
Yes, the bonds between rubidium ions and carbonate ions in rubidium carbonate are ionic bonds.
Ions are formed in the case of ionic bonds and not covalent bonds.
Ions are transferred through electrical charges and electrons. The attractive force of ionic bonds causes them to move at fast pace.
Silver ions are only one half of a ionic bond. Take a simple ionic compound, one half of which is silver, for example silver bromide. This contains both Ag2+ (silver) and Br-(Bromine) ions. The bonds between these two different ions are ionic bonds
The polarity of the water molecule causes an ionic compound to dissolve in water. The slightly negative oxygen atoms of the water molecules attract the positive ions, and the slightly positive hydrogen atoms of the water molecules attract the negative ions. This breaks the ionic bonds and the ions are surrounded by water molecules, preventing them from reforming ionic bonds. Refer to the related link for an illustration and more information.
The polarity of the water molecule causes an ionic compound to dissolve in water. The slightly negative oxygen atoms of the water molecules attract the positive ions, and the slightly positive hydrogen atoms of the water molecules attract the negative ions. This breaks the ionic bonds and the ions are surrounded by water molecules, preventing them from reforming ionic bonds. Refer to the related link for an illustration and more information.
The ammonium ions itself is held together by covalent bonds, but it will form ionic bonds with negative ions.
Ionic bonds form ions. Ionic bonds are bonds between a metal and a non-metal(anion and cation) where each wil transfer electrons with each other.
Ions and molecules are the results of two different types of bonds. Ions are the result of ionic bonds and molecules are the result of covalent bonds.
Oppositely charged ions form ionic bonds.
In ionic bonds, an element donates electrons to a more electronegative element to from ions. The prior element makes positive ions where the latter makes negative. Then these ions form electrostatic bond to form a crystalline lattice. Therefore ionic compounds have ionic bonds in them.