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Fe2+-porphyrins fail to exhibit reversible oxygen transport and cannot differentiate CO from O2. However, the hemoglobin is free from both these pit falls. Among the followinga)Fe2+-porphyrins undergo μ-oxodimer formation and the same is prevented in case of the hemoglobin.b)Fe—CO bond strength is much low in case of hemoglobin when compared to the Fe2+-porphyrins.c)While Fe—CO is linear, Fe—O2 is bent and is recognized by hemoglobind)The interlinked four monomeric units in the hemoglobin are responsible to overcome the pitfalls.Correct answer is option 'A,C'. Can you explain this answer? for Chemistry 2024 is part of Chemistry preparation. The Question and answers have been prepared according to the Chemistry exam syllabus. Information about Fe2+-porphyrins fail to exhibit reversible oxygen transport and cannot differentiate CO from O2. However, the hemoglobin is free from both these pit falls. Among the followinga)Fe2+-porphyrins undergo μ-oxodimer formation and the same is prevented in case of the hemoglobin.b)Fe—CO bond strength is much low in case of hemoglobin when compared to the Fe2+-porphyrins.c)While Fe—CO is linear, Fe—O2 is bent and is recognized by hemoglobind)The interlinked four monomeric units in the hemoglobin are responsible to overcome the pitfalls.Correct answer is option 'A,C'. Can you explain this answer? covers all topics & solutions for Chemistry 2024 Exam. Find important definitions, questions, meanings, examples, exercises and tests below for Fe2+-porphyrins fail to exhibit reversible oxygen transport and cannot differentiate CO from O2. However, the hemoglobin is free from both these pit falls. Among the followinga)Fe2+-porphyrins undergo μ-oxodimer formation and the same is prevented in case of the hemoglobin.b)Fe—CO bond strength is much low in case of hemoglobin when compared to the Fe2+-porphyrins.c)While Fe—CO is linear, Fe—O2 is bent and is recognized by hemoglobind)The interlinked four monomeric units in the hemoglobin are responsible to overcome the pitfalls.Correct answer is option 'A,C'. Can you explain this answer?.

Solutions for Fe2+-porphyrins fail to exhibit reversible oxygen transport and cannot differentiate CO from O2. However, the hemoglobin is free from both these pit falls. Among the followinga)Fe2+-porphyrins undergo μ-oxodimer formation and the same is prevented in case of the hemoglobin.b)Fe—CO bond strength is much low in case of hemoglobin when compared to the Fe2+-porphyrins.c)While Fe—CO is linear, Fe—O2 is bent and is recognized by hemoglobind)The interlinked four monomeric units in the hemoglobin are responsible to overcome the pitfalls.Correct answer is option 'A,C'. Can you explain this answer? in English & in Hindi are available as part of our courses for Chemistry. Download more important topics, notes, lectures and mock test series for Chemistry Exam by signing up for free.

Here you can find the meaning of Fe2+-porphyrins fail to exhibit reversible oxygen transport and cannot differentiate CO from O2. However, the hemoglobin is free from both these pit falls. Among the followinga)Fe2+-porphyrins undergo μ-oxodimer formation and the same is prevented in case of the hemoglobin.b)Fe—CO bond strength is much low in case of hemoglobin when compared to the Fe2+-porphyrins.c)While Fe—CO is linear, Fe—O2 is bent and is recognized by hemoglobind)The interlinked four monomeric units in the hemoglobin are responsible to overcome the pitfalls.Correct answer is option 'A,C'. Can you explain this answer? defined & explained in the simplest way possible. Besides giving the explanation of Fe2+-porphyrins fail to exhibit reversible oxygen transport and cannot differentiate CO from O2. However, the hemoglobin is free from both these pit falls. Among the followinga)Fe2+-porphyrins undergo μ-oxodimer formation and the same is prevented in case of the hemoglobin.b)Fe—CO bond strength is much low in case of hemoglobin when compared to the Fe2+-porphyrins.c)While Fe—CO is linear, Fe—O2 is bent and is recognized by hemoglobind)The interlinked four monomeric units in the hemoglobin are responsible to overcome the pitfalls.Correct answer is option 'A,C'. Can you explain this answer?, a detailed solution for Fe2+-porphyrins fail to exhibit reversible oxygen transport and cannot differentiate CO from O2. However, the hemoglobin is free from both these pit falls. Among the followinga)Fe2+-porphyrins undergo μ-oxodimer formation and the same is prevented in case of the hemoglobin.b)Fe—CO bond strength is much low in case of hemoglobin when compared to the Fe2+-porphyrins.c)While Fe—CO is linear, Fe—O2 is bent and is recognized by hemoglobind)The interlinked four monomeric units in the hemoglobin are responsible to overcome the pitfalls.Correct answer is option 'A,C'. Can you explain this answer? has been provided alongside types of Fe2+-porphyrins fail to exhibit reversible oxygen transport and cannot differentiate CO from O2. However, the hemoglobin is free from both these pit falls. Among the followinga)Fe2+-porphyrins undergo μ-oxodimer formation and the same is prevented in case of the hemoglobin.b)Fe—CO bond strength is much low in case of hemoglobin when compared to the Fe2+-porphyrins.c)While Fe—CO is linear, Fe—O2 is bent and is recognized by hemoglobind)The interlinked four monomeric units in the hemoglobin are responsible to overcome the pitfalls.Correct answer is option 'A,C'. Can you explain this answer? theory, EduRev gives you an ample number of questions to practice Fe2+-porphyrins fail to exhibit reversible oxygen transport and cannot differentiate CO from O2. However, the hemoglobin is free from both these pit falls. Among the followinga)Fe2+-porphyrins undergo μ-oxodimer formation and the same is prevented in case of the hemoglobin.b)Fe—CO bond strength is much low in case of hemoglobin when compared to the Fe2+-porphyrins.c)While Fe—CO is linear, Fe—O2 is bent and is recognized by hemoglobind)The interlinked four monomeric units in the hemoglobin are responsible to overcome the pitfalls.Correct answer is option 'A,C'. Can you explain this answer? tests, examples and also practice Chemistry tests.