Geometry and magnetic properties of [Fe (H2O)6]2+ion

<p>According to&nbsp;<strong>valence bond theory</strong>, there are&nbsp;<a href="https://chemizi.blogspot.com/2020/05/ninh36cl2-paramagnetic-but-conh36cl3-is.html" rel="noopener ugc nofollow" target="_blank">two types of octahedral&nbsp;</a>complexes are possible, namely, inner orbital complexes and outer orbital complexes.</p> <p>When a&nbsp;<a href="https://chemizi.blogspot.com/2020/05/ninh36cl2-paramagnetic-but-conh36cl3-is.html" rel="noopener ugc nofollow" target="_blank">transition or inner transition&nbsp;</a>metals with a specific oxidation state forms octahedral complexes, then some of complexes are inner orbital and some of complexes are outer orbital.</p> <p><img alt="" src="https://miro.medium.com/v2/resize:fit:578/0*QYO9lq8isrFFkLv-.png" style="height:304px; width:578px" /></p> <p>Valence bond theory explained this matter on the basis of hybridization of metal ion. Now, in case of<strong>&nbsp;[Fe (H</strong>&nbsp;<strong>2O) 6] 2+ion,</strong>&nbsp;the</p> <p><a href="https://kgghosh1990.medium.com/geometry-and-magnetic-properties-of-fe-h2o-6-2-ion-8b729b48e0dd"><strong>Click Here</strong></a></p>