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.
Phosphorus and chlorine can form a variety of bonds, including ionic bonds where phosphorus (P) gains electrons from chlorine (Cl) to form PCl5 or covalent bonds where they share electrons to form compounds such as PCl3 or PCl5.
The bond angle of AlCl3 is 120 degrees.
The bond angle of N2O is 180 degrees.
The bond angle for H2S is approximately 92 degrees.
Phosphorus and chlorine can form an ionic bond to create phosphorus trichloride (PCl3) or a covalent bond to create phosphorus pentachloride (PCl5), depending on the reaction conditions.
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.
The bond angle in CO2 is 180 degrees.
The bond angle of AlCl3 is 120 degrees.
The bond angle of N2O is 180 degrees.
Phosphorus pentachloride (PCL5)
Phosphorus and chlorine can form a variety of bonds, including ionic bonds where phosphorus (P) gains electrons from chlorine (Cl) to form PCl5 or covalent bonds where they share electrons to form compounds such as PCl3 or PCl5.
The bond angle for H2S is approximately 92 degrees.
Phosphorus and chlorine can form an ionic bond to create phosphorus trichloride (PCl3) or a covalent bond to create phosphorus pentachloride (PCl5), depending on the reaction conditions.
PCl5 Phosphorous pentachlorideP for Phosphorous and 5 Cl for chloride= PCl5 College Chemistry student
The bond angle in NI3 is approximately 107 degrees.
The bond angle for IO2 is around 120 degrees.
The bond angle for NBr3 is approximately 107 degrees.