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.
PCL3 is a molecular compound with a trigonal pyramidal shape, while PCl5 is a molecular compound with a trigonal bipyramidal shape. PCl3 contains three chlorine atoms, while PCl5 contains five chlorine atoms. Additionally, PCl5 is more reactive than PCl3 due to its higher number of chlorine atoms.
PCL5 is more reactive than PCL3 because it contains two additional chlorine atoms that are more electronegative and can be easily displaced, making the molecule more susceptible to nucleophilic attack and reaction with other chemicals. This increased reactivity is due to the presence of two more electron-withdrawing chlorine atoms in PCL5 compared to PCL3.
Yes, sulfur hexafluoride (SF6) contains covalent bonds. In SF6, sulfur is bonded to six fluorine atoms through covalent bonds, where electrons are shared between the atoms. This results in a stable and non-reactive molecule due to the strong covalent bonds.
SF6 is a covalent compound. It consists of a sulfur atom bonded to six fluorine atoms through covalent bonds, where electrons are shared between the atoms to form a stable molecule.
Argon is a stable, inert gas and does not react with other elements. Calcium is a reactive metal, particularly with water and acids, but it forms stable compounds like calcium oxide and calcium carbonate.
PCL3 is a molecular compound with a trigonal pyramidal shape, while PCl5 is a molecular compound with a trigonal bipyramidal shape. PCl3 contains three chlorine atoms, while PCl5 contains five chlorine atoms. Additionally, PCl5 is more reactive than PCl3 due to its higher number of chlorine atoms.
reactive
PCL5 is more reactive than PCL3 because it contains two additional chlorine atoms that are more electronegative and can be easily displaced, making the molecule more susceptible to nucleophilic attack and reaction with other chemicals. This increased reactivity is due to the presence of two more electron-withdrawing chlorine atoms in PCL5 compared to PCL3.
Apart, Oxygen and Hydrogen are not stable, but when they combine they become stable, and when something is stable, it is not reactive (unless you force it to be)
Apart, Oxygen and Hydrogen are not stable, but when they combine they become stable, and when something is stable, it is not reactive (unless you force it to be)
Well i think it is reactive
The element Californium is reactive.
they are stable
Yes, sulfur hexafluoride (SF6) contains covalent bonds. In SF6, sulfur is bonded to six fluorine atoms through covalent bonds, where electrons are shared between the atoms. This results in a stable and non-reactive molecule due to the strong covalent bonds.
it's stable, but it is a reactive element!
SF6 is chemically inert due to the reason that the six F atoms protect the sulphur atom from attack by the regents to such an extent that even thermodynamically most favorable reactions like hydrolysis do not occur. The structure of SF6 is as follows.
SF6 is a covalent compound. It consists of a sulfur atom bonded to six fluorine atoms through covalent bonds, where electrons are shared between the atoms to form a stable molecule.