Halite or sodium chloride! :D u r special just believe it u r awesome <3
Electrostatic attraction between the oppositely charged particles. For example consider sodium chloride NaCl, if the compound were to be broken down into its ions it would look like Na+ and a Cl- the opposite charges attract and hold the individual ions together forming a crystal lattice, a solid.
Iodine crystal is a molecular crystal. It consists of individual iodine molecules held together by van der Waals forces, rather than ionic bonds between ions.
Ionic bonds hold sodium atoms together. Sodium atoms lose an electron to achieve a stable electron configuration, forming positively charged sodium ions. These ions are then attracted to negatively charged ions from other elements to form a bond.
I assume you have Chemistry, not my favorite class this year but anyways..The attractive force pulls many ions together into a tightly packed structure. The tight packing of the ions causes any salt, such as sodium chloride, to have a distinctive crystal structure. Crystal structure is your answer.Cool fact.The smallest crystal of table salt that you could see would still have more than a billion billion sodium and chloride ions!Good day
The elements present in silver bromide are silver and bromine.
sodium :)
They are held together by an electrostatic force causing an ionic bond.
Magic
The ions in sodium chloride are held together by ionic bonds. In this type of bond, the positive sodium ions are attracted to the negative chloride ions, creating a strong electrostatic force that keeps the ions together in a crystal lattice structure.
electrostatic forces-apex
Yes, Ca(NO3)2 is an ionic compound. It is composed of calcium ions (Ca2+) and nitrate ions (NO3-). The strong electrostatic attraction between these oppositely charged ions holds the compound together in a crystal lattice structure.
Covalent bonds in ions or electric attraction.
Chemical Bond
The strength of the ionic bonds and the attraction among all the ions.
When ions arrange themselves into orderly patterns, it is called crystallization. This process involves the ions coming together in a structured arrangement to form a crystal lattice, leading to the formation of a solid crystal.
Electrostatic attraction between the oppositely charged particles. For example consider sodium chloride NaCl. If the compound were to be broken down into its ions it would look like Na+ and a Cl- the opposite charges attract and hold the individual ions together forming a crystal lattice, a solid.
Ionic bond is the force that holds NaCl units together. This bond forms between the positively charged sodium cation and the negatively charged chloride anion. The attraction between these opposite charges creates a strong bond that keeps the ions together in a crystal lattice structure.