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

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

The homoleptic complex is

Consider that a d^(6) metal ion (M^(2+)) forms a complex with aqua ligands , and the spin only magnetic moment of the complex is 4.90 BM . The geometry and the crystal field stabilization energy of the complex is :

An aqueous solution of titanium bromide shows zero magnetic moment. Assuming the complex as octahedral in aqueous solution, the formula of the complex is .

An aqueous solution of titanium bromide shows zero magnetic moment. Assuming the complex as octahedral in aqueous solution the formula of the complex is .

The magnetic moment of a complex (A) of Co was found to be 4.89BM and the EAN as 36 co alos forms complex (B) with magnetic moment 3.47BM and EAN as37 and complex (C ) with EAN as 36but diamagnetic Which of the following statements is true regarding the above observation?

Which of the following is an example of homoleptic complex ?

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

Which of the following shell from an octahedral complex

The magnetic moment of [Mn(CN)_(6)]^(3-) is 2.8 B.M and that of [MnBr_(4)]^(2-) is 5.9 B.M. What are the geometries of these complex ions