In compounds of type `ECl_(3)`, where E=B,P. As or Bi, the angles `Cl-E-Cl` for different E are in the order:

In compounds of type ECI_(3) , where E=BP , As or B , the angles CI-E-CI for different E are in the order

Cl-P-Cl bond angles in PCl_5 molecule are

Statement-1 : If e^(itheta)=cos theta +isintheta and the value of e^(iA).e^(iB).e^(iC) is equal to -1, where A,B,C are the angles of a triangle. and Statement -2 : In any triangleABC , A + B +C = 180^(@)

Given below are a set of half-cell reactions (acidic medium) along with their E_(@) with respect to normal hydrogen electrode values. Using the data obtain the correct explanation to question given below. {:(I_(2)+2e^(-)rarr2I^(-),E^(@)=0.54),(Cl_(2)+2e^(-)rarr2Cl^(-),E^(@)=1.36),(Mn^(2+)+e^(-)rarrMn^(2+),E^(@)=1.50),(Fe^(3+)+e^(-)rarrFe^(2+),E^(@)=0.77),(O_(2)+4H^(+)+4e^(-)rarr2H_(2)O,E^(@)=1.23):} While Fe^(2+) is stable, Mn^(3+) is not stable in acid solution because:

Given below are a set of half-cell reactions (acidic medium) along with their E_(@) with respect to normal hydrogen electrode values. Using the data obtain the correct explanation to question given below. {:(I_(2)+2e^(-)rarr2I^(-),E^(@)=0.54),(Cl_(2)+2e^(-)rarr2Cl^(-),E^(@)=1.36),(Mn^(2+)+e^(-)rarrMn^(2+),E^(@)=1.50),(Fe^(3+)+e^(-)rarrFe^(2+),E^(@)=0.77),(O_(2)+4H^(+)+4e^(-)rarr2H_(2)O,E^(@)=1.23):} Among the following, identify the correct statement:

How many Cl atoms can you ionise in the process Cl rarr Cl^+ + e, by the energy liberated for the process Cl + e rarr rarr Cl^- for one Avogadro's number of atoms ? (Given : IP = 13. 0 eV and EA = 3.60 eV ) .

Given : Co^(3+)+e^(-)rarr Co^(2+), E^(@)=+1.181V Pb^(4+)+2e^(-)rarrPb^(2+),E^(@)=+1.67V Ce^(4+)+e^(-) rarr Ce^(3+), E^(@)=+1.61V Bi^(3+)+3e^(-)rarr Bi, E^(@)=+0.20V Oxidizing power of the species will increase in the order:

A sample space consists of 9 elementary outcomes E1, E2, ..., E9 whose probabilities are P(E1) = P(E2) = 0.08, P(E3) = P(E4) = P(E5) = 0.1 P(E6) = P(E7) = 0.2, P(E8) = P(E9) = 0.07 SupposeA = {E1, E5, E8}, B = {E2, E5, E8, E9} (a) Calculate P (A), P (B), and P (A ∩ B) (b) Using the addition law of probability, calculate P (A ∪ B) (c) List the composition of the event A ∪ B, and calculate P (A ∪ B) by adding the probabilities of the elementary outcomes. (d) Calculate P (Bar B) from P

Given : Co^(3+) + e^(-) to Co^(2+) , E^(@) = +1.81V pb^(4+) + 2e^(-) rightarrow Pb^(2+) , E^(@) = + 1.67V Ce^(4)+ e^(-)rightarrow Ce^(3+), E^(@) = +1.61V Ce^(4)+3e^(-)rightarrow Bi , E^(@) = + 0.20V Oxidation power of the species will increase in the order: