PCl5 is covalent in the vapour phase with a trigonal biyramidal shape. It is ionic in the solid consisting of PCl4+ PCl6-
In solution it can be covalent or ionic depending on the solvent.
NO!! Oxygen-Carbon Bond in phenol has double bond character in it due to resonance, which is hard to break.
Yes, PCl5 is a binary molecular compound.
experimental of reaction between pyridine and PCl5
Phosphorus pentachloride is a chemical compound with the formula PCl5.
The reaction will proceed to the left. PCl5 will be formed. PCl3 will be consumed.
In PCl3 and PCl5 there is covalent bonding.
NO!! Oxygen-Carbon Bond in phenol has double bond character in it due to resonance, which is hard to break.
PCL5 is formed two types of P-CL bond, equitorial and axial bonds. The axial bonds suffer more repulsion than the equitorial bonds, and they can easily break, which makes PCL5 unstable. SF6 is largely inert due to steric hindrance.
PCl5 Phosphorous pentachlorideP for Phosphorous and 5 Cl for chloride= PCl5 College Chemistry student
Phosphorus pentachloride (PCL5)
The name of the compound PCl5 is phosphorus pentachloride.
The structures for the phosphorus chlorides are invariably consistent with VESPER theory. The structure of PCl5 depends on its environment. Gaseous and molten PCl5 is a neutral molecule with trigonal bipyramidal . The hypeRVALENT nature of this species can be explained with three-center four-electron bonding model. This trigonal bipyramidal structure persists in non-polar solvents, such as CS2 and CCl4.In the solid state PCl5 is ionic, formulated PCl4+ PCl6−.
PCl5 -----> PCl3 + Cl2
Yes, PCl5 is a binary molecular compound.
PCl5
PCl5 is phosphorous pentachloride. Which is in a trigonal bipyramidal arrangement.
pcl5