The size of the species, `Pb,Pb^(2+),Pb^(4+)` decreases as:

In group 14 of the periodic table, the oxidising power of tetravalent species decreases in the order a. Ge gt Pb gt Sn b. Ge gt Sn gt Pb c. Pb gt Ge gt Sn d. Pb gt Sn gt Ge

The wavelengths of K_alpha X-rays from lead isotopes Pb^(204) , Pb^(206) and Pb^(208) are lambda_1, lambda_2 and lambda_3 respectively. Choose the correct alternative.

The wavelengths of K_alpha X-rays from lead isotopes Pb^(204) , Pb^(206) and Pb^(208) are lambda_1, lambda_2 and lambda_3 respectively. Choose the correct alternative.

The voltage of the cell Pb(s)|PbSO_(4)(s)|NaHSO_(4)(0.600M)||Pb^(2+)(2.50 xx 10^(-5)M)|Pb(s) is E = +0.061V . Calculate K_(2) = [H^(+)] [SO_(4)^(2-)]//[HSO_(4)^(-)] the dissociation constant for HSO_(4)^(-) . Given Pb(s) +SO_(4)^(2-) rarr PbSO_(4) +2e^(-) (E^(@) = 0.356V),E^(@) (Pb^(2+)//Pb) =- 0.126V .

Standard cell voltage for the cell Pb//Pb^(2+)||Sn^(2+)//Sn " is " -0.01V . If the cell exhibit E_("cell") = 0 , the value of log [Sn^(2+)]//[Pb^(2+)] should be

The standard reduction potential of Pb and Zn electrodes are -0.12 6 and -0.763 volts respectively . The e.m.f of the cell Zn|Zn^(2+)(0.1M)||Pb^(2+)(1M)|Pb is

A cell is constructed using Pb^(2+), Pb and Ni^(2+), Ni electrodes. If E^@ values of Pb and Ni electrode are respectively -0.13 and -0.25 V , write (a) the cell reaction and (b) cell notation.

._(90)Th^(234) disintegrates to give ._(82)Pb^(206)Pb as the final product. How many alpha and beta particles are emitted during this process ?

The correct code for stability, of oxidation states for given cations is: (i) Pb^(2+) gt Pb^(4+) ,Tl^(+) lt Tl^(3+) (ii) Bi^(3+) lt Sb^(3+) , Sn^(3+) lt Sn^(4+) (iii) Pb^(3+) gt Pb^(4+),Bi^(3+) gt Bi^(3+) (iv) Tl^(3+) lt ln^(3+), Sn^(2+) gt Sn^(4+) (v) Sn^(2+) lt Pb^(2+) , Sn^(4+) gt Pb^(4+) (vi) Sn^(2+) lt Pb^(2+), Sn^(4+) lt Pb^(4+)

Fill in the blanks: Compounds that formally contain Pb^(4+) are easily reduced to Pb^(2+) . The stability of the lower oxidation state is due to………… .