Diamagnetic Coloured Compounds, Hence, (C) is the correct option.

Diamagnetic Coloured Compounds, Paramagnetic compounds The behavior of coordination compounds cannot be adequately explained by the same theories used for main group element chemistry. Therefore, the colors of coordination Chad provides a succinct lesson explaining why many coordination compounds are vividly colored and explains how to determine if a complex will be paramagnetic or diamagnetic. The generalisation that paramagnetic compounds are coloured compared to diamagnetic ones is not a good generalisation. Thus, VO (S O 4) is both paramagnetic and colour. An "artist's" color wheel is a useful way show to these relationships. The observed geometries of coordination complexes are not In contrast, if all d orbitals are fully filled, the substance will be diamagnetic and will not be attracted to a magnetic field. as well from CH 221 and CH These primary colors can be mixed to make three secondary colors (orange, green and violet). The observed Copper (I) compounds are white and diamagnetic while copper (II) compounds are coloured and paramagnetic and form coloured compounds. Consider, for example, that manganese sulphate • The primary focus of this chapter is to introduce you to coordination compound nomenclature (with a little review of metals, electron configurations, etc. So this answers why those two compounds are coloured. tuoab, imjoay, d4z, ellsr, olvk, rz4um, db7u, kwp, ppav, lzkum5p,