![Among left [ Feleft ( H_{2}O right )_{6} right ]^{3+},left [ Feleft ( CN right )_{6} right ]^{3-},left [ Feleft ( Cl right )_{6} right ]^{3-} species, the hybridisation state of the Among left [ Feleft ( H_{2}O right )_{6} right ]^{3+},left [ Feleft ( CN right )_{6} right ]^{3-},left [ Feleft ( Cl right )_{6} right ]^{3-} species, the hybridisation state of the](https://search-static.byjusweb.com/question-images/toppr_ext/questions/658100_617620_ans_401809c6d0ba481fa7689098afe3637d.png)
Among left [ Feleft ( H_{2}O right )_{6} right ]^{3+},left [ Feleft ( CN right )_{6} right ]^{3-},left [ Feleft ( Cl right )_{6} right ]^{3-} species, the hybridisation state of the
![a) For the complex [Fe(CN)_(6)]^(3-) , write the hybridisation type, magnetic character and spi... - YouTube a) For the complex [Fe(CN)_(6)]^(3-) , write the hybridisation type, magnetic character and spi... - YouTube](https://i.ytimg.com/vi/ud4xkoAYw-k/maxresdefault.jpg)
a) For the complex [Fe(CN)_(6)]^(3-) , write the hybridisation type, magnetic character and spi... - YouTube
![a) For the complex { left[ Fe{ left( CN right) }_{ 6 } right] }^{ 3- }, write the hybridization type, magnetic character and spin nature of the complex. (Atomic number : a) For the complex { left[ Fe{ left( CN right) }_{ 6 } right] }^{ 3- }, write the hybridization type, magnetic character and spin nature of the complex. (Atomic number :](https://search-static.byjusweb.com/question-images/toppr_ext/questions/994279_471862_ans_274df12034c14a6ea02085d9c811233c.bmp)
a) For the complex { left[ Fe{ left( CN right) }_{ 6 } right] }^{ 3- }, write the hybridization type, magnetic character and spin nature of the complex. (Atomic number :
![Valence bond theory of Coordination Compounds- Features, Hybridisation, Geometry, Examples, Limitation and FAQs of Valence bond theory. Valence bond theory of Coordination Compounds- Features, Hybridisation, Geometry, Examples, Limitation and FAQs of Valence bond theory.](https://cdn1.byjus.com/wp-content/uploads/2021/12/VBT-of-coordination-compounds-2.png)
Valence bond theory of Coordination Compounds- Features, Hybridisation, Geometry, Examples, Limitation and FAQs of Valence bond theory.
The hybridization and magnetic nature of [Mn(CN)6]^4- and [Fe(CN)6]^3–, respectively are: - Sarthaks eConnect | Largest Online Education Community
![The hybridization and geometry of [Fe(CO)_4]^{2-} are :sp^3d, TBPsp^3, tetrahedralsp^3, TBPdsp^2, square planar The hybridization and geometry of [Fe(CO)_4]^{2-} are :sp^3d, TBPsp^3, tetrahedralsp^3, TBPdsp^2, square planar](https://search-static.byjusweb.com/question-images/toppr_ext/questions/265623_249064_ans_855d6ece239c47e2a7778d0556da172e.png)
The hybridization and geometry of [Fe(CO)_4]^{2-} are :sp^3d, TBPsp^3, tetrahedralsp^3, TBPdsp^2, square planar
For the complexion of [Fe(CN)6]^3- : (i) Show the hybridization diagrammatically. - Sarthaks eConnect | Largest Online Education Community
![a For the complex [ F e CN 6]4 , write the hybridisation, magnetic character and spin type of the complex. At. number: Fe =26 b Draw one of the geometrical isomers a For the complex [ F e CN 6]4 , write the hybridisation, magnetic character and spin type of the complex. At. number: Fe =26 b Draw one of the geometrical isomers](https://byjus-answer-creation.s3.amazonaws.com/uploads/60e7df4424737982aa9fb83f_img_upload_solution_1652216200.png)
a For the complex [ F e CN 6]4 , write the hybridisation, magnetic character and spin type of the complex. At. number: Fe =26 b Draw one of the geometrical isomers
![The hybridization of Fe in K4[Fe(CN)6] complex is | Coordination Master Series | Valence Bond Theory - YouTube The hybridization of Fe in K4[Fe(CN)6] complex is | Coordination Master Series | Valence Bond Theory - YouTube](https://i.ytimg.com/vi/E5Dr4k4sbD0/maxresdefault.jpg)