WebCalculate the CFSE for a high-spin d^5 complex.Calculate the CFSE for a low-spin d^5 complex.i need explanation. thank you so much This problem has been solved! You'll get … WebCrystal field stabilization energy for high spin `d^4` octahedral complex is. asked Feb 25, 2024 in Chemistry by SuchitraChatterjee (81.4k points) class-12; coordination-compounds; 0 votes. 1 answer. Crystal field …
Crystal Field Splitting in an Octahedral Field - IIT Kanpur
WebIn [C o C l 4] 2 −, the oxidation state of metal complex is +2. Thus, its configuration is d 7. C l − is a weak field ligand so it will give high spin complex. CFSE = 4 × (− 0.6) Δ t + 3 × (+ 0.4) Δ t CFSE = − 2.4 Δ t + 1.2 Δ t CFSE = − 1.2 Δ t WebAug 23, 2024 · Crystal field stabilization energy for high spin d octahedral complex is 0. ... How would you calculate crystal field stabilization energy for [Fe (H2O)6]^3+. ... 0 votes. 1 answer. What is crystal field stabilization energy (CFSE) ? asked Aug 23, 2024 in Coordination Chemistry by Nilam01 (35.8k points) coordination; class-12; 0 votes. 1 … myewds
Crystal Field Stabilization Energy - Chemistry LibreTexts
WebApr 7, 2024 · Calculate CFSE of the following complex: ${[Fe{(CN)_6}]^{4 - }}$ (A) $ - 0.4{\Delta _t}$ (B) $ - 2.4{\Delta _{\text{o}}}$ (C) $0.4{\Delta _{\text{o}}}$ WebOption (B) is correct. In [CoF 6] 3−, cobalt has 3d 7,4s 2 system in ground state but in excited state it loses three electrons in the formation of ions and two elctrons from 4s and one from 3d orbital so thus Cobalt gets 3d 6 configuration. Now it is of high spin so 4 electrons go to t 2g orbital and 2 electrons go to e g orbital. Web(a) +3 points PER diagram for: correct electron distribution and weak/strong high/low spin labeling (b) +3 total for eg and t2g labels (c) +5 total for correct d orbital labels (c) (4 points) Calculate the crystal field stabilization energy (CFSE) for high spin Fe2+. Do not include pairing energy. -2/5 Δo +4-2 if missing Δo label -1 for a ... myewc account