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Sagot :
To determine which compound cannot have a valid Lewis structure without violating the octet rule, we need to examine each option and check if it adheres to the octet rule.
### Octet Rule Overview
The octet rule states that atoms tend to form compounds in ways that provide them with eight valence electrons, achieving a stable electron configuration similar to noble gases.
### Analysis of Each Compound
1. \( SO_4^{2-} \) (Sulfate Ion):
- Sulfur (S) is in period 3, which means it can have expanded octets using d orbitals.
- Therefore, it can have more than 8 electrons around it.
2. \( SbF_3 \) (Antimony Trifluoride):
- Antimony (Sb) is in period 5, which means it can also expand its octet using d orbitals.
- Therefore, it can distribute more than 8 electrons around it.
3. \( NF_3 \) (Nitrogen Trifluoride):
- Nitrogen (N) is in period 2 and strictly follows the octet rule.
- It has 5 valence electrons and forms three bonds with fluorine, which completes its octet perfectly.
4. \( IF_3 \) (Iodine Trifluoride):
- Iodine (I) is in period 5 and can expand its octet using d orbitals.
- Therefore, it can contain more than 8 electrons around it.
5. \( PF_3 \) (Phosphorus Trifluoride):
- Phosphorus (P) is in period 3 and can also expand its octet, but typically it follows the octet rule in simpler compounds.
- In \( PF_3 \), phosphorus forms three bonds with fluorine, giving it 8 electrons in its valence shell.
### Conclusion
To identify which compound cannot have a valid Lewis structure without violating the octet rule:
- \( SO_4^{2-} \) does not violate the rule because sulfur can have an expanded octet.
- \( SbF_3 \) does not violate the rule because antimony can have an expanded octet.
- \( NF_3 \) does not violate the rule because nitrogen adheres strictly to the octet rule.
- \( IF_3 \) does not violate the rule because iodine can have an expanded octet.
- \( PF_3 \) does not violate the rule because phosphorus can accommodate 8 electrons, adhering to the octet rule in this simple molecule.
After this careful analysis, it is determined that [tex]\( SO_4^{2-} \)[/tex] (Sulfate Ion) cannot have a valid Lewis structure without considering the violation of the octet rule for its central atom in the traditional context, confirming that the correct answer is [tex]\( \boxed{SO_4^{2-}} \)[/tex].
### Octet Rule Overview
The octet rule states that atoms tend to form compounds in ways that provide them with eight valence electrons, achieving a stable electron configuration similar to noble gases.
### Analysis of Each Compound
1. \( SO_4^{2-} \) (Sulfate Ion):
- Sulfur (S) is in period 3, which means it can have expanded octets using d orbitals.
- Therefore, it can have more than 8 electrons around it.
2. \( SbF_3 \) (Antimony Trifluoride):
- Antimony (Sb) is in period 5, which means it can also expand its octet using d orbitals.
- Therefore, it can distribute more than 8 electrons around it.
3. \( NF_3 \) (Nitrogen Trifluoride):
- Nitrogen (N) is in period 2 and strictly follows the octet rule.
- It has 5 valence electrons and forms three bonds with fluorine, which completes its octet perfectly.
4. \( IF_3 \) (Iodine Trifluoride):
- Iodine (I) is in period 5 and can expand its octet using d orbitals.
- Therefore, it can contain more than 8 electrons around it.
5. \( PF_3 \) (Phosphorus Trifluoride):
- Phosphorus (P) is in period 3 and can also expand its octet, but typically it follows the octet rule in simpler compounds.
- In \( PF_3 \), phosphorus forms three bonds with fluorine, giving it 8 electrons in its valence shell.
### Conclusion
To identify which compound cannot have a valid Lewis structure without violating the octet rule:
- \( SO_4^{2-} \) does not violate the rule because sulfur can have an expanded octet.
- \( SbF_3 \) does not violate the rule because antimony can have an expanded octet.
- \( NF_3 \) does not violate the rule because nitrogen adheres strictly to the octet rule.
- \( IF_3 \) does not violate the rule because iodine can have an expanded octet.
- \( PF_3 \) does not violate the rule because phosphorus can accommodate 8 electrons, adhering to the octet rule in this simple molecule.
After this careful analysis, it is determined that [tex]\( SO_4^{2-} \)[/tex] (Sulfate Ion) cannot have a valid Lewis structure without considering the violation of the octet rule for its central atom in the traditional context, confirming that the correct answer is [tex]\( \boxed{SO_4^{2-}} \)[/tex].
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