The coordination compounds' names or formulas, the oxidation state of each metal ion, and the electronic configuration of the each metal ion.
1. [V(OH2)6](NO3)3 - Vanadium(V) Oxidation State: +5 Electronic Configuration: [Ar] 3d3 4s2
2. (NH4)2[CoCl4] - Cobalt(II) Oxidation State: +2 Electronic Configuration: [Ar] 3d7 4s2
3. [Co(py)4]Br2 - Cobalt(III) Oxidation State: +3 Electronic Configuration: [Ar] 3d6 4s2
4. K4[Mn(CN)6] - Manganese(II) Oxidation State: +2 Electronic Configuration: [Ar] 3d5 4s2
5. [Co(P(CH3)3)4]2(SO4) - Cobalt(III) Oxidation State: +3 Electronic Configuration: [Ar] 3d6 4s2
6. Ni(NH3)4Cl2 - Nickel(II) Oxidation State: +2 Electronic Configuration: [Ar] 3d8 4s2
7. [CrCl2(OH2)4]+ - Chromium(III) Oxidation State: +3 Electronic Configuration: [Ar] 3d5 4s1
What is Electronic Configuration?
The arrangement of an atom's or molecule's (or other physical structure's) electrons in their atomic or molecular orbitals is known as the electron configuration in atomic physics as well as quantum chemistry. For instance, the neon atom's electron configuration is 1s2 2s2 2p6, which means that 1, 2 and 6 electrons, respectively, are present in each of the 1s, 2s, and 2p subshells. According to electronic configurations, each electron moves independently within an orbital while being surrounded by an average field produced by all other orbitals. Slater determinants as well as configuration state functions are used to mathematically describe configurations.
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Answer:
Explanation:
Well the gas is the fuel for the flame of course. The collision theory comes into play when the gas turns on, chemicals collide with one another. Then reactions occur causing the flame. Then when you take away the fuel, the flame stops because there is no atoms or molecules to come together/collide with one another.
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Answer:
The valence electrons in the metal atom in the lattice structure can delocalize and move freely. The electrons are "loosely" connected with their parent atom in the metallic bond because most metals have excess electrons in their outer orbitals above the stable configuration.
Answer:
A protein is more stable in its native form, because apart of weak interactions between R groups, it also presents other stronger interactions, as those including covalent bonds
Explanation:
For example, covalent bonds between sulfur atoms when disulfide bridges are built. These links are very difficult to break and maintains the protein shape. Disulfide bonds are a few but they use to incide in the structure of native proteins
Because water is able to dissolve in many things and most of this world is made out of water so no country or state doesn't have water, some have infected water with lead in them and others don't, but water can dissolve in salt, that's why they call it salt water and also tapped water where u put some mixtures in them to make it have flavor.