K Cl (aq) + Ag N O3 (aq) → Ag Cl (s) + K N O3 (aq)
Exemples of properties: structure, cell dimensions, lattice energy.
magnesium chloride is a ionic structure there for forming a giant ionic lattice, each atom is held by a ionic bond. H2O is a simple molecular structure there for the molecules are held by intermolecular forces which are easily overcome, however the molecules aren't broken up it is only the structure. :)= Sav
Table salt, or sodium chloride, has a simple crystalline atomic structure with each molecule composed of one sodium atom and one chlorine atom. The sodium atom carries a positive charge, while the chlorine atom carries a negative charge, resulting in an ionic bond between them. This arrangement forms a repeating pattern of sodium and chlorine ions in a crystal lattice structure.
Simple answer: it is a pure substance Non-Simple answer: Diamonds contain impurities in their lattice structure that are other elements, so technically it is slightly a mixture, but only if you get really picky about it.
it is a simple structure
Calcium Chloride is a giant structure
Exemples of properties: structure, cell dimensions, lattice energy.
cubes, very small cubes
NaCl - sodium chloride KCl - potassium chloride
magnesium chloride is a ionic structure there for forming a giant ionic lattice, each atom is held by a ionic bond. H2O is a simple molecular structure there for the molecules are held by intermolecular forces which are easily overcome, however the molecules aren't broken up it is only the structure. :)= Sav
A giant structure. MgBr2 is ionic and forms an ionic lattice.
Simple reason - It violates the cubic symmetry. To see it from another perspective - Base centered cubic lattice is equivalent to a simple tetragonal lattice. Draw two unit cells adjacent to each other. Then connect the base center points to the corener points which are shared by these two unit cells. Then connect the two base centered point in each unit cell. Now you have a simple tetragonal lattice. Simple tetragonal lattice has one lattice point per unit cell compared to two lattice point per unit cell of base centered lattice. Always the lower lattice point lattice is considered for a given symmetry. Because of symmetry breaking, the symmetry of base centered cubic lattice is same as tetragonal lattice.
Simple answer: it is a pure substance Non-Simple answer: Diamonds contain impurities in their lattice structure that are other elements, so technically it is slightly a mixture, but only if you get really picky about it.
Simple answer: it is a pure substance Non-Simple answer: Diamonds contain impurities in their lattice structure that are other elements, so technically it is slightly a mixture, but only if you get really picky about it.
In practicality, none. It is fairly simple chemistry. Potassim (K) typically does not just exist naturally as itself. It is usually is bonded with some other elements or substance. In the case of Potassium Pills, it is bonded with chloride and you get KCl. Potassium Gluconate just uses a a gluconate molecule instead of a Cl to bind it to. You may compare this to Na Cl or Sodium Chloride (Table Salt). You never eat sodium alone, it is always in combination with Chloride. The reason in short is that when Potassium is combined with another chemical it becomes charged positive (K+) and this is useful for your body. Any supplement you buy that contains Potassium, whether it be Potassium Gluconate or Potassium Chloride, are most often the same.
The classic example is a mixture of sodium chloride with potassium chloride; simple KCl has a bad taste.
Frenkel defects involve the migration of an atom from its original lattice site to an interstitial site, whereas Schottky defects are related to the simultaneous creation of vacancies in the crystal lattice. Frenkel defects are common in compound semiconductors, while Schottky defects are more prevalent in ionic solids like metal halides.