Ionic bonds form between molecules that have what type of charges?
no, this is false it forms a hydrogen bond.
Chemical bonds form between atoms through the interaction of opposite charges. This process can occur between electrons and nuclei or as a dipole attraction.
-SH
There are no molecules of NaCl in an aqueous solution of sodium chloride! Each ion is separate, free to move in an electric field if one is applied, and each ion is surrounded by a loosely bound sphere of water molecules.When salt is dissolved in water, the ions of the salt dissociate from each other and associate with the dipole of the water molecules forming an Electrolyte. To decompose this dipoleinto two equal but opposite charges you need to apply voltage externally to move them to the opposite poles (anion and cation). The whole process is reversible and forms the basic principle in electrochemistry (electrolysis). Coloumbs / Faraday and electrochemical equivalence are related elements in the same subject.
Because some of the molecules fit in between each other, filling in the gaps normally between molecules in these substances.
no. it forms between molecules that have opposite charges.
Yes, the polarity is weakened considerably.
no, this is false it forms a hydrogen bond.
an ionic bond
A chemical bond is an attractive force between atoms. It is caused by the electrostatic force of attraction between opposite charges, and forms either strong bonds or weak bonds.
the is the substance dissolved in a solution
Chemical bonds form between atoms through the interaction of opposite charges. This process can occur between electrons and nuclei or as a dipole attraction.
No Hydrogen is the weakest bond that can possible form between two molecules.
Ionic bonds
In these molecules the difference of the electronegativity between the two atoms is significant.
Chemical bonds are between atoms, ions or molecules.
A polar molecule is positive on one end and negative on the opposite end. A hydrogen bond is a special attraction between polar molecules, a weak bond.