`Fe^(2+)` is paramagnetic

Which of the following arrangements represent the correct order of the property stated against it ? (i) Ni^(2+) lt Co^(2+) lt Fe^(2+) lt Mn^(2+) : ionic size (ii) Co^(3+) lt Fe^(3+) lt Cr^(3+) lt Sc^(3+) : stability in aqueious solution (iii) Sc lt Ti lt Cr lt Mn : number of oxidation states (iv) V^(2+) lt Cr^(2+) lt Mn^(2+) lt Fe^(2+) : paramagnetic behaviour

[NiCl_(4)]^(2-) is paramagnetic and therefore its geometry is :

Explain that K_4Fe(CN)_6 is diamagnetic while K_3Fe(CN)_6 is paramagnetic.

In the following questions, a statement of assertion (A) is followed by a statement of reason (R ) A : O_(2) is paramagnetic . R : N_(2) is paramagnetic .

Why is Ti^(2+) ion paramagnetic ?

is sulphur S_(2) is paramagnetic in nature and why ?

[NiCI_(2){P(C_(2)H_(5))_(2)(C_(6)H_(5))}_(2)] exhibits temperature dependent magnetic behaviour(paramagnetic//diamagnetic) The coordination geometries of Ni^(2+) in the paramagnetic and diamagnetic states are respectively .

Why NO is paramagnetic?

Assertion [Fe(H_(2)O)_(5)NO]SO_(4) is paramagnetic Reason The Fe in [Fe(H_(2)O)_(5)NO]SO_(4) has three unpaired electrons .

The species which is paramagnetic