Chemistry Problems: Can You Help Me Solve These Three?

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The discussion revolves around three chemistry problems requiring solutions. The formal charge on the atoms in HOFO was debated, with clarification that it can be represented as a neutral species, though concerns about octet violations were raised. The Lewis structure for SiCl2Br2 was identified as having a tetrahedral geometry with silicon as the central atom. The electron dot structure for CHClO was described, emphasizing the bonding between carbon, hydrogen, chlorine, and oxygen. Overall, the conversation highlighted the importance of understanding molecular geometry and bonding in these chemical structures.
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I have three problems that I need help with solving. I can't seem to get the right answer for them.

1) What is the formal charge on each of the atoms in HOFO?

2)What is the lewis structure of SiCl_2Br_2?

3)What is the electron do structure of CHClO?


Thanks
 
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HOFO can be written as a neutral species, I think.
H-O-F=O with two lone pairs on Fluorine

The central atom of SiCl2Br2 is Si, and its geometry is tetrahedral, with no lone pairs.The electron dot structure is hard to input here, so I'll describe it.
C with a single bond (:) to H and a single bond (:) to Cl
The same C with a double bond (::) to O
 
kalery said:
HOFO can be written as a neutral species, I think.
H-O-F=O with two lone pairs on Fluorine

Not likely. F with a double bond and 2 LP would violate the octet rule as written above. There is no double bond in HOFO.

Oxoacids as in HXO where X = Group 15, 16, 17 non-metal , X is the central atom.
H is bonded to an O not the X

Think of HClO4, HClO3, HClO2 (HFO2) and HClO

The central atom is usually the element with a subscript of 1 (lonely one) but when it is ambiguous as in CHClO, then C (or Group 4 element as in SiCl2Br2) is usually the central atom as it fills its octet with 4 covalent bonds.
 
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