Pb(IV)-compositions are good oxidants. Pb(II) is more stable. Inert-Pair-Effect.
Lead Chloride.
yes, it is an ionic compound and all ionic compounds exist in solid state.
The valency for plumbic is +4. This means that plumbic compounds typically have a charge of +4.
no,because it has a cloride ion and all clorides are soluble
PbCl4 is less stable than PbCl2 because of steric hindrance from the bulky Cl atoms in PbCl4, leading to a higher energy state. PbCl2 has a more stable structure due to the lower coordination number of Pb, allowing for stronger Pb-Cl bonds and a more compact arrangement.
PbCl4 is it's formula. The name of the chemical is Lead tetrachloride.
The formula for plumbous chloride is PbCl2. It is also known as lead(II) chloride and is a compound of lead and chlorine.
Lead (II) chloride for PbCl2 and lead (IV) chloride for PbCl4 .
apply fazan's rule, greater the charge on cation more is the polarising power and hence more covalent character polarising power of pb4+>pb2+ thus pbcl4 is more covalent than pbcl2 conversely pbcl2 more ionic than pbcl4
Pb(IV)-compositions are good oxidants. Pb(II) is more stable. Inert-Pair-Effect.
PbCl2 is lead(II) chloride, PbCl4 is lead(IV) chloride
The chemical formula for lead(IV) chloride is PbCl4.
lead(IV) chloride
PbCl2 is insoluble in NH4OH. When PbCl2 is mixed with NH4OH, it forms a precipitate of lead chloride due to the low solubility of PbCl2 in NH4OH solution.
The oxidation number of chlorine in the compound PbCl is -1. Lead (Pb) has an oxidation number of +2, so the overall charge of the compound is neutral. Chlorine typically has an oxidation number of -1 in binary compounds.
To convert 254g of lead(IV) chloride (PbCl4) to moles, you would first calculate the molar mass of PbCl4 (278.96 g/mol). Then, divide the given mass by the molar mass to obtain the number of moles. In this case, 254g / 278.96 g/mol = 0.91 moles of PbCl4.