All of the following complex show decrease in their weight when placed in magnetic balance then the group of complexes having tetrahedral geometry is
I) `Ni(CO)_(4)` II) `K[AgF_(4)]` III) `Na_(2)[Zn(CN)_(4)]`
IV) `K_(2)[Pt(Cl_(4)]` V) `[RhCl(pph_(3))_(3)]`

Write the following complex numbers in the form A+iB (2-3i)(3+4i)

Among the following, the species having square planar geometry for central atom are (i) XeF_(4) (ii) SF_(4) (iii) [NiCl_(4)] (iv) [PtCl_(4)]^(2)

The magnetic behaviour of complexes K_4[Fe(CN)_6] and K_3[Fe(CN)_6] is

Write the IUPAC names of the following complexes i) K_(3)[Fe(CN)_(6)] , ii) [Pt(NH_(3))+_(6)](SO_(4))_(2) , iii) Kfe^(III)[Fe(CN)_(6)] , iv) Cs_(2)[Co^(II)Cl_(4)] and v) [CoF_(6)]^(-3) .

Valence bond theory successfully explains the magnetic behaviour of complexes. The substances which contains unpaired electrons are paramagnetic and paramagnetic character increases as the number of unpaired electrons increases. Magnetic moment of a complex can be determined experimentally and by using formula sqrt(n(n+2)) and we can determine the number of unpaired electrons in it. This information is important in writing electronic structure of complex which in turn also useful in deciding the geometry of complex. Which of the following are diamagnetic ? 1) K_(4)[Fe(CN)_(6)] 2) K_(3)[Cr(CN)_(6)] 3) K_(3)[Co(CN)_(6)] 4) K_(2)[Ni(CN)_(4)]

Write down the IUPAC name for each of the following complexes and indicate the oxidation state, electronic configuration and coordination number. Also give stereochemistry and magnetic moment of the complex: (i) K[Cr(H_(2)O)_(2)(C_(2)O_(4))_(2)].3H_(2)O (ii) [Co*NH_(3))_(5)Cl.]Cl_(2) (iii) CrCl_(3)(py)_(3) (iv) Cs[FeCl_(4)] (v) K_(4)[Mn(CN)_(6)]

Give the correct increasing order of electrical conductivity of aqueous solutions of following complex entities I) [Pt(NH_3)_6]Cl_4 II) [Cr(NH_3)_6]Cl_3 III) [Co(NH_3)_4Cl_2]Cl IV) K_2 [ PtCl_6]

Stable complex based on EAN rule (i) K_(4)[Fe(CN)_(6)] (ii) [Co(NH‌‌_(3))_(5)Cl]Cl_(2) (iii) [Ni(CO)_(4)] (iv) K_(3)(Ni(CN)_(4)]

Valence bond theory successfully explains the magnetic behaviour of complexes. The substances which contains unpaired electrons are paramagnetic and paramagnetic character increases as the number of unpaired electrons increases. Magnetic moment of a complex can be determined experimentally and by using formula sqrt(n(n+2)) and we can determine the number of unpaired electrons in it. This information is important in writing electronic structure of complex which in turn also useful in deciding the geometry of complex. The magnetic moment of complexes given below are in the order : {:(Ni(CO)_(4),[Mn(CN)_(6)]),("(I)","(II)"),([Cr(NH_(3))_(6)]^(3+),[CoF_(6)]^(3+)),("(I)","(II)"):}

Which of the following compound give basic solution on hydrolysis ? (1) NH_(4)Cl (2) K_(2)CO_(3) (3) Na_(2)B_(4)O_(7). 10H_(2)O (4) NaCl