1)
The complex has tetrahedral geometry.
2)
Nickel is hybridised
The oxidation state of nickel is +2. The valence shell electronic configuration of is .
3)
There are two unpaired electrons in the complex so the number of unpaired electrons
Calculate the spin only magnetic moment
Consider the paramagnetic complex [NiCl4]2-. 1)What is the geometry of this ion complex. 2)Determine the hybridization...
Consider the paramagnetic complex [NicL,]2. 1) What is the geometry of this ion complex. 2) Determine the hybridization of titanium. Calculate the spin-only magnetic moment of this complex
Example 6 Consider the complex ion ICo(NHl2. Which response contains all of the following statements that are true, and no false statements. I- it is paramagnetic II- it is high spin complex III- it is a low spin complex IV- it has octahedral geometry V- it does not exist as geometric isomers a- I and II c- II, IV and V e- I, IV and V b- III and IV d- III, IV and V Example 6 Consider the complex...
A transition metal complex with the formula [Fe(CN)2(CO)(NO2)]- is paramagnetic. what is its geometry? A transition metal complex with the formula [Fe(CN)2(CO)(NO2)]- is paramagnetic. What is its geometry? A) Square pyramidal B) Tetrahedral C) Octahedral D) Square planar E) None of these.
3. (5 pts) The magnetic moment of a paramagnetic metal complex is measured as 3.8 UB at 25 °C and 2 UB at -150 °C. Which of the following is most likely true of this complex? (Select one answer. There is only one correct answer) a) It contains a Cu2+ ion surrounded by six pyridine ligands b) It contains an Fe2+ ion surrounded by six pyridine ligands c) It contains a Co2+ ion surrounded by two terpyridine ligands d) It...
Back lecture 9 Question 3 1 The spin only magnetic moment of MmBr412- is 5.9B. Prediet the geometry of the complex ion 2) Explain ICo(NH3)63+ is an inner orbital complex whereas [Ni(NH 3)6]2 + is an outer orbital complex Question 4 1) A solution of INiH20O)6j2+ is green but a solution of NiCN2- is colorless. Explain 2) What will be the correct order for the wavelengths of abserption in the visible region for the following: Back lecture 9 Question 3...
5) Draw d orbital splitting of an octahedral complex. Calculate CFSE for a high spin Fe(II) complex in an octahedral geometry. Calculate spin only magnetic moment for the complex too. 6
[Co(en)2(H2O)(Cl)]3[Ni(CN)4]2 For the nickel portion of the complex, determine the number of d electrons and given the possible geometry(s) would the complex be a high spin or low spin complex.
For the complex ion [Cr(bipy)3]2+, identify: The predicted spin-only magnetic moment in units of B: ["2.828", "4.899", "3.873", "1.732", "5.916"] (Select one) An expression for the LFSE of this complex: ["-4Dq", "P - 8Dq", "0", "-16Dq + P", "-6Dq"] (Select one)
The compound K3[NiF6] is paramagnetic. Determine the oxidation number of nickel in this compound, the most likely geometry of the coordination around the nickel, and the possible configurations of the d electrons of the nickel. Oxidation number ___-7-6-5-4-3-2-10+1+2+3+4+5+6+7 Geometry Configurations (t2g)n(eg)m Weak field n = m = Strong field n = m =
1- Draw the molecular orbital diagram of transition metal ion in high-spin Mn(H2O)4(OH)2 complex, also determine the number of unpaired electron. 2- Draw the molecular orbital diagram of transition metal ion in low-spin [Cr(en)2(NH3)2].Cl2 complex, also determine the number of unpaired electron. 3- Draw the molecular orbital diagram of transition metal ion in high-spin K.[Mn(CO)3(OH)3] complex, also determine the number of unpaired electron.