Question
The illustration depicts the formation of an ionic chemical bond between lithium and fluorine atoms. Why is the resulting compound more stable than the individual atoms?
Responses
A The shared electron from lithium to fluorine provides each atom with a full outer energy level.The shared electron from lithium to fluorine provides each atom with a full outer energy level.
B The shared electron from lithium to fluorine provides each atom with an empty outer energy level.The shared electron from lithium to fluorine provides each atom with an empty outer energy level.
C The transferred electron from lithium to fluorine provides each atom with a full outer energy level.The transferred electron from lithium to fluorine provides each atom with a full outer energy level.
D The transferred electron from lithium to fluorine provides each atom with an empty outer energy level.The transferred electron from lithium to fluorine provides each atom with an empty outer energy level.
Responses
A The shared electron from lithium to fluorine provides each atom with a full outer energy level.The shared electron from lithium to fluorine provides each atom with a full outer energy level.
B The shared electron from lithium to fluorine provides each atom with an empty outer energy level.The shared electron from lithium to fluorine provides each atom with an empty outer energy level.
C The transferred electron from lithium to fluorine provides each atom with a full outer energy level.The transferred electron from lithium to fluorine provides each atom with a full outer energy level.
D The transferred electron from lithium to fluorine provides each atom with an empty outer energy level.The transferred electron from lithium to fluorine provides each atom with an empty outer energy level.
Answers
GPT-4o mini
The correct response is:
C The transferred electron from lithium to fluorine provides each atom with a full outer energy level.
In the formation of an ionic bond between lithium (Li) and fluorine (F), lithium donates one electron to fluorine. This transfer allows lithium to achieve a full outer shell resembling the electron configuration of a noble gas (specifically helium), while fluorine, by gaining that electron, achieves a full outer shell with eight electrons, resembling the electron configuration of neon. This full outer energy level makes both ions (Li⁺ and F⁻) more stable compared to their individual atomic states.
C The transferred electron from lithium to fluorine provides each atom with a full outer energy level.
In the formation of an ionic bond between lithium (Li) and fluorine (F), lithium donates one electron to fluorine. This transfer allows lithium to achieve a full outer shell resembling the electron configuration of a noble gas (specifically helium), while fluorine, by gaining that electron, achieves a full outer shell with eight electrons, resembling the electron configuration of neon. This full outer energy level makes both ions (Li⁺ and F⁻) more stable compared to their individual atomic states.