Calculate the magnetic moment of a high-spin octahedral complex that has six electrons in 3d-orbitals

t_(2g) orbitals in octahedral complexes are

Crystal field stabilization energy for high spin d^4 octahedral complex is

The calculated spin only magnetic moment of Cr^2+ ion is:

Which of the following is a high spin complex ?

The magnetic moment of an octahedral homoleptic Mn(II) complex is 5.9BM . The suitable ligand for this comples is :

The magnetic moment (spin only) of [NiCl_4]^(2-) is

Magnetic moment of an electron in nth orbit of hydrogen atom is

Magnetic moment of an electron in nth orbit of hydrogen atom is

Electronic configuration od d^8 system in low spin octahedral complex

Velence bond theroy describes the bonding in complexs in terms of coordinate -covalent bond resulting from overlap filled ligand orbitals with vacant metal hybrid orbitals This theory explains magnetic behaviour and geometrical shape of coordination compounds Magnetic moment of a complex compound can be determined experimentally and theoretically by using spin only formula Magnetic moment sqrtn (n+2)BM (where n = No. unpaired electrons) . The value of of spin only magnetic moment for octahedral complex of the following configuration is 2.84BM The correct statement is (a) d^(4) (in weak field ligand) (b) d^(2) (in weak field and in strong field ligand) (c) d^(3) (in weak field and in strong field ligand) (d) d^(5) (in strong field ligand) .