WebCr2+ is a stronger reducing agent than Fe2+. This can be explained on the basis of the standard electrode potential values E°(Cr3+/Cr2+ = –0.41 V) and E° (Fe3+/Fe2+ = + … WebNov 1, 2024 · Which is a stronger reducing agent Cr2 positive or Fe2 positive and why? Answer: Cr2+ is a stronger reducing agent than Fe2+. This can be explained on the basis of the standard electrode potential values E° (Cr3+/Cr2+ = –0.41 V) and E° (Fe3+/Fe2+ = + 0.77 V). Thus Cr2+ is easily oxidised to Cr3+ but Fe2+ cannot be as readily oxidised to …
Cr3+is a stronger reducing agent than Fe2+. Explain.
WebAug 27, 2024 · Which is a stronger reducing agent Cr3+ or Fe2+ and why? The highest oxidation state for Cr is +6, therefore it can loose 3 more electrons, whereas Fe needs to loose only 1 electron to achieve its highest oxidation state of +3. Thus, Cr3+ is more reducing than Fe2+. Which is the strongest reducing agent RB NA K MG? so, K>Mg. WebAmong the follwong the strongest reducing agent is: Hard. View solution > Give reasons: C r 2 + is a strong reducing agent whereas M n 2 + is not (C r = 2 4, M n = 2 5). Easy. View solution > View more. CLASSES AND TRENDING CHAPTER. class 5. The Fish Tale Across the Wall Tenths and Hundredths Parts and Whole Can you see the Pattern? high plains community church gillette wyoming
AP Chemistry: Electrochemistry Practice Test; Dr. H Flashcards
WebSolution. Verified by Toppr. Cr 2+ has a d 4 configuration while after reduction it gets converted to Cr 3+−d 3 configuration which has half-filled t 2g orbital which is very stable. WebFe3+ + € → Fe2+, E° = 0.77 V; Zn2+ + 2e → Zn, E = -0.76 V a) -1.53 V b) -0.01 V c) 0.78 V d) 1.53 V c Examine the following half-reactions and select the strongest oxidizing agent among the substances: Sr2+ + 2e → Sr, E° = -2.89 V; Cr2+ + 2 e → Cr, E° = -0.913 V; Fe2+ + 2 e --> Fe, E° = -0.447 V; CO2+ + 2 e → Co, Eo = -0.28 V. a ... WebMar 18, 2024 · Answer: Cr2+ is a stronger reducing agent than Fe2+. This can be explained on the basis of the standard electrode potential values E°(Cr3+/Cr2+ = –0.41 V) and E° (Fe3+/Fe2+ = + 0.77 V). Thus Cr2+ is easily oxidised to Cr3+ but Fe2+ cannot be as readily oxidised to Fe3+. high plains coop dresden ks