3c) Determine the valence electron count of the complex shown below. Use both counting models andcompare your results. Assume that the Re-N-O bonding angle is 180°.ON!...ReORPPh3Ph3d) The nitrosyl cation is notorious for its ability to function as a non-innocent ligand. This means thatcoordinated NO* can affect the oxidation state of the metal to which it is bound. If the central atom M(1) can adopt more than one stable oxidation state and (2) if the metal is not too electronegative, theNO* can withdraw two electrons from M. Does this redox process alter the geometry of the originallylinear M-N-O bond and the electron count of the nitrosyl ligand? If yes, describe the changes and themodifications that have to be made when determining the valence electron count.

3c), the valence electron count can be determined using the following models:Neutral model:Re: 7…

Answered: 3c) Determine the valence electron…

Principles of Modern Chemistry

8th Edition

ISBN:9781305079113

Author:David W. Oxtoby, H. Pat Gillis, Laurie J. Butler

Publisher:David W. Oxtoby, H. Pat Gillis, Laurie J. Butler

Chapter8: Bonding In Transition Metal Compounds And Coordination Complexes

Section: Chapter Questions

Problem 31P

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Is it possible for a complex of a metal in the transition series to have six unpaired electrons? Explain.
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Login B Problemn Set Metals and Coordin X online.broward.edu/d2l/le/content/460959/viewContent/12468049/View em Set Metals and Coordination Compounds 7) If you were to use a ligand L that was a stronger field ligand than NH3, what color would you expect the new [NiLs]* complex ion to have? INi(H,O),F* Max absorption in visible=720 nm [Ni(NH),P* Max absorption in visible = 570 nm A) Green B) Blue C) Purple 11
k) The reactions of Group I and Group II with ammonia and chloride ligands give distinctly different compounds to the reactions of the same ligands with transition metals. Explain em why this is so. wollot ar I) Discuss Werner's theory of coordination complexes and compare that theory to our current understanding of coordination chemistry.
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