draw the electron density distribution of the five 3d
orbitals.......
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draw the electron density distribution of the five 3d orbitals....... 7. (a) Draw the electron density...
ligand field will cause splitting of energy levels of 3d orbitals of the central metal ion.............
ligand field will cause splitting of energy levels of 3d
orbitals of the central metal ion..........
splitting of energy ieveis of 3d obitals of the central metal ion. 6. Ligand field will cause Draw the energy levels of the 3d ortbitals of metal complexes in (a) octahedral, (b) tetrahedral, (c) square planar, (d) linear configurations. (e) Briefly explain the key factor which determines the relative energy level of the five 3d orbitals in different configurations. (20 % )
splitting of...
The transition metal ion, Fe(III), can form octahedral or tetrahedral complexes depending on the ligand it...
The transition metal ion, Fe(III), can form octahedral or tetrahedral complexes depending on the ligand it binds to. (a) (i) [Fe(CN)6]3- is a strong field octahedral complex of Fe(III). Draw a labelled orbital energy level diagram that shows both the splitting of the d-orbitals and their electron occupancy in [Fe(CN)6]. (3 marks) (ii) Fe(III) can also form tetrahedral complexes, most of which are weak field. Draw a labelled orbital energy level diagram that shows both the splitting of the d-orbitals...
1. For each of the following complexes, give the electron configurations of the d-type M Os,...
1. For each of the following complexes, give the electron configurations of the d-type M Os, for tetrahedral complexes. Also ie ) (e) for octahedral complexes and (e( ch complex in units of the Bohr , Fe(CN) 3, CoCl , Ni(CO)4, Ti(H2O) +, magnet n f.в Co ( NH3) 3+, Co(FLO)r", Fe(CN) V Fa". Cu(H2O) г., CuCl? , V(CO), Cr(CO) each octahedral complex is high-spi the ligand field theory notes). ust use your judgment as to whether n or low-spin...
Date: 1117 mework 10 - Ch. 21-23 A) CN B)NO c)r D) CO Name: E ) en 24. Place the ligands, CN-, Br., H2O, and OH-in o...
Date: 1117 mework 10 - Ch. 21-23 A) CN B)NO c)r D) CO Name: E ) en 24. Place the ligands, CN-, Br., H2O, and OH-in order from least to greatest according ability to split the d orbital energy level. A) CN-, OH, H2O, Br- C) Br,H20, CN-, OH- B) Br., OH, H2O, CN- D) None of the above 25. The charge on the central metal ion in (Cr(NH3)(CO3)2+ is A)-1. B) 0. C) 1. D) 3. E) 5 26....
Sc3+ V2+ 4. A) Consider the transition metal ions: Mn2+ Co2+ Zn2+ For which ions are...
Sc3+ V2+ 4. A) Consider the transition metal ions: Mn2+ Co2+ Zn2+ For which ions are high spin and low spin octahedral electron configurations observed? Draw high and low spin splitting diagrams for each ion where they are different Label each diagram you draw. Note: if an ion has identical diagrams for high and low spin, it's OK to draw it, but you do not need to draw it. B) Consider the transition metal ions: Sc+ V2 Mn2+ Co2 Zn2+...
(i) Draw the electron distribution in the d orbitals of an octahedral Cu(II) complex and show...
(i) Draw the electron distribution in the d orbitals of an octahedral Cu(II) complex and show the electronic transition responsible for the absorptions observed. (ii) Assign the transition you observe for each complex and give the value of (in cm-1 ) (ii) is based on the complexes from (i)
Use the concepts of crystal field theory to predict the highest-energy orbital or group of orbitals...
Use the concepts of crystal field theory to predict the highest-energy orbital or group of orbitals among the five d orbitals when a transition metal ion is placed in the following type of ligand field environments (assuming conventional axes definition is used) Draw the geometry and draw the highest energy orbital (label: axis and orbital) to show how your came to your conclusion. Square planar: Trigonal bipyramidal:
2. a. Draw and show the crystal field splitting of the d orbitals in an octahedral...
2. a. Draw and show the crystal field splitting of the d orbitals in an octahedral complex, a tetrahedral complex, and in a square planar complex.(clearly label the orbitals) b. Explain the difference in the following crystal field splitting values (1) Co(NH3).]2+ 10200 cm"! : [CO(NH3).]* 22,900 cm (ii) [Cr(H20).]** 17,400 cm. ; [Cr(CN).]3-26,600 cm (iii) [MnF6]?- 22,200 cm-"; [ReF.]?- 27,800 cm- (iv) [Co(NH3).]2+ 10,200 cm '; [Co(NH3)4]2+ 5,900 cm c. Draw and show the filling of 6 d electrons...
can anyone please confirm my answers for 5&6? And can you explain how to fill in...
can
anyone please confirm my answers for 5&6? And can you explain
how to fill in the electrons for 7? Please and Thank you.
5. The values of A, for some coordination complexes are given below. (a) [Fe(ox)) --- 14,100 cm-1 (ox-oxalato ligand-----weak ligand] (b) [Fe(CN).-----35,000 cm ©) [Fe(CN)6]* -----33,800 cm (1) Explain reason(s) why A. of complex (a) and (b) are different (ii) Explain reason(s) why 4, of complex (b) and (c) are different 6. Answer the following questions...
In relation to M(acac)3 complexes, assuming they contain an octahedrally coordinated M3+ ion: Draw the ligand...
In relation to M(acac)3 complexes, assuming they contain an octahedrally coordinated M3+ ion: Draw the ligand field orbital diagrams for Co(III), Fe(III), Mn(III), and Cr(III) to derive the possible electron configurations for the metal complexes. State the number of unpaired spins each configuration has. Which is the correct d-electron configuration for each complex? Which complexes are "high spin" and which are "low spin"? Thanks so much! I will give immediate upvotes!
ligand field will cause splitting of energy levels of 3d
orbitals of the central metal ion..........
splitting of energy ieveis of 3d obitals of the central metal ion. 6. Ligand field will cause Draw the energy levels of the 3d ortbitals of metal complexes in (a) octahedral, (b) tetrahedral, (c) square planar, (d) linear configurations. (e) Briefly explain the key factor which determines the relative energy level of the five 3d orbitals in different configurations. (20 % )
splitting of...
The transition metal ion, Fe(III), can form octahedral or tetrahedral complexes depending on the ligand it binds to. (a) (i) [Fe(CN)6]3- is a strong field octahedral complex of Fe(III). Draw a labelled orbital energy level diagram that shows both the splitting of the d-orbitals and their electron occupancy in [Fe(CN)6]. (3 marks) (ii) Fe(III) can also form tetrahedral complexes, most of which are weak field. Draw a labelled orbital energy level diagram that shows both the splitting of the d-orbitals...
1. For each of the following complexes, give the electron configurations of the d-type M Os, for tetrahedral complexes. Also ie ) (e) for octahedral complexes and (e( ch complex in units of the Bohr , Fe(CN) 3, CoCl , Ni(CO)4, Ti(H2O) +, magnet n f.в Co ( NH3) 3+, Co(FLO)r", Fe(CN) V Fa". Cu(H2O) г., CuCl? , V(CO), Cr(CO) each octahedral complex is high-spi the ligand field theory notes). ust use your judgment as to whether n or low-spin...
Date: 1117 mework 10 - Ch. 21-23 A) CN B)NO c)r D) CO Name: E ) en 24. Place the ligands, CN-, Br., H2O, and OH-in order from least to greatest according ability to split the d orbital energy level. A) CN-, OH, H2O, Br- C) Br,H20, CN-, OH- B) Br., OH, H2O, CN- D) None of the above 25. The charge on the central metal ion in (Cr(NH3)(CO3)2+ is A)-1. B) 0. C) 1. D) 3. E) 5 26....
Sc3+ V2+ 4. A) Consider the transition metal ions: Mn2+ Co2+ Zn2+ For which ions are high spin and low spin octahedral electron configurations observed? Draw high and low spin splitting diagrams for each ion where they are different Label each diagram you draw. Note: if an ion has identical diagrams for high and low spin, it's OK to draw it, but you do not need to draw it. B) Consider the transition metal ions: Sc+ V2 Mn2+ Co2 Zn2+...
Use the concepts of crystal field theory to predict the highest-energy orbital or group of orbitals among the five d orbitals when a transition metal ion is placed in the following type of ligand field environments (assuming conventional axes definition is used) Draw the geometry and draw the highest energy orbital (label: axis and orbital) to show how your came to your conclusion. Square planar: Trigonal bipyramidal:
2. a. Draw and show the crystal field splitting of the d orbitals in an octahedral complex, a tetrahedral complex, and in a square planar complex.(clearly label the orbitals) b. Explain the difference in the following crystal field splitting values (1) Co(NH3).]2+ 10200 cm"! : [CO(NH3).]* 22,900 cm (ii) [Cr(H20).]** 17,400 cm. ; [Cr(CN).]3-26,600 cm (iii) [MnF6]?- 22,200 cm-"; [ReF.]?- 27,800 cm- (iv) [Co(NH3).]2+ 10,200 cm '; [Co(NH3)4]2+ 5,900 cm c. Draw and show the filling of 6 d electrons...
can
anyone please confirm my answers for 5&6? And can you explain
how to fill in the electrons for 7? Please and Thank you.
5. The values of A, for some coordination complexes are given below. (a) [Fe(ox)) --- 14,100 cm-1 (ox-oxalato ligand-----weak ligand] (b) [Fe(CN).-----35,000 cm ©) [Fe(CN)6]* -----33,800 cm (1) Explain reason(s) why A. of complex (a) and (b) are different (ii) Explain reason(s) why 4, of complex (b) and (c) are different 6. Answer the following questions...
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