Q. 8. Determine the structure and magnetic
behaviour of [CoCl,12- using valence bond theory.
Answers
Explanation:
Write the name, the state of hybridization, the shape and the magnetic behaviour of the following complexes: [CoCl4]2–, [Ni(CN)4]2–, [Cr(H2O)2(C2O4)2]– (Atomic number: Co = 27, Ni = 28, Cr = 24) Read more on Sarthaks.com - https://www.sarthaks.com/51496/write-the-name-state-hybridization-the-shape-and-magnetic-behaviour-following-complexes
Using valence bond theory, explain the following in relation to the complexes given below: [Mn(CN)6]3– , [Co(NH3)6]3+, [Cr(H2O)6]3+ , [FeCl6]4– (i) Type of hybridisation. (ii) Inner or outer orbital complex. (iii) Magnetic behaviour. (iv) Spin only magnetic moment value.Read more on Sarthaks.com - https://www.sarthaks.com/109077/using-valence-bond-theory-explain-the-following-in-relation-to-the-complexes-given-below
Answer:
It is a hypothesis that explains chemical bonding. According to VBT, the overlap of partially filled atomic orbitals results in the development of a chemical bond between two atoms. The unpaired electrons are shared, resulting in the formation of a hybrid orbital.
Explanation:
What will be structure and magnetic behaviour using valence bond theory?
Write the name, hybridization state, form, and magnetic behaviour of the following complexes: [CoCl4] 2–, [Ni(CN)4] [Cr(H2O)2(C2O4)2] 2 Co = 27, Ni = 28, Cr = 24) Explain the following in respect to the complexes listed below using valence bond theory: [Mn(CN)6] 3– , [Co(NH3)6] 3+, [Cr(H2O)6] 3+ , [FeCl6] 4- I Hybridisation type. (ii) Orbital complex, either inner or outer. (iii) Magnetic properties. (iv) Magnetic moment value exclusively for spin.
Magnetic moments are vector quantities that have a magnitude and a direction. An electron possesses a magnetic dipole moment caused by the electron's intrinsic spin characteristic, which causes it to be an electric charge in motion. There are other types of magnetic behaviour, such as paramagnetism, diamagnetism, and ferromagnetism.
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