These metals are not solubles in water and doesn't react with water.
It is useful for the extraction of metals like Zn, Sn, Pb from impurities.
Utilize Henry's Law: S1P1=S2P2
ionisation energy order for gr 14 is c>si>ge>sn<pb
Group 14 of the periodic table of Mendeleev contain: C, Si, Ge, Sn, Pb, Fl.
The solubility of a gas in a solvent is directly proportional to the partial pressure of that gas above the solvent.
Read NCERT
Tin and Lead are both metals with oxidation numbers of 2+ and 4+, so the two equations for Lead (Pb) are 2Pb + O2 ---> 2PbO and Pb + O2 ---> PbO2 The equations for Tin (Sn) look the same ... just substitute Sn where you see Pb.
Yes: Stannous: Sn2+ or Sn(II)-cation and Stannic Sn4+ or Sn(IV)-cation, like lead (Pb) does.
2Zn + Pb(No3)2 --> 2ZnNO3 + Pb
It is useful for the extraction of metals like Zn, Sn, Pb from impurities.
I'm not 100% sure that "solubility" is the right word to use here, but the amount of dissolved gas in a liquid will decrease as the partial pressure of the gas above the liquid decreases.Basically The solubility decreases.
Sn standing for Stannum, also lead is Pb because of Plumbum
Utilize Henry's Law: S1P1=S2P2
Antimony, tin and lead are all transition state metals.
Since Lead (II) Chloride has the formula PbCl2, the equilibrium equation for its dissolution is: PbCl2 <=> Pb+2+2Cl- so the equilibrium-constant expression is Ksp= [Pb+2][Cl-]
yes silicon belongs to the carbon family (IVA GROUP-C,Si,Ge,Sn,Pb)
ionisation energy order for gr 14 is c>si>ge>sn<pb