Question
Question
Which elements would react most easily with each other? (1 point)
Responses
an element with a high electronegativity and an element with a full shell of electrons
an element with a high electronegativity and an element with a full shell of electrons
an element with a high electronegativity and an element with low reactivity
an element with a high electronegativity and an element with low reactivity
an element with a high electronegativity and an element with a single valence electron
an element with a high electronegativity and an element with a single valence electron
an element with a high electronegativity and a second element with a high electronegativity
an element with a high electronegativity and a second element with a high electronegativity
Which elements would react most easily with each other? (1 point)
Responses
an element with a high electronegativity and an element with a full shell of electrons
an element with a high electronegativity and an element with a full shell of electrons
an element with a high electronegativity and an element with low reactivity
an element with a high electronegativity and an element with low reactivity
an element with a high electronegativity and an element with a single valence electron
an element with a high electronegativity and an element with a single valence electron
an element with a high electronegativity and a second element with a high electronegativity
an element with a high electronegativity and a second element with a high electronegativity
Answers
GPT-4o mini
The pair that would react most easily with each other is:
**an element with a high electronegativity and an element with a single valence electron.**
This is because an element with high electronegativity is likely to be a nonmetal (like halogens), which tends to attract electrons, while an element with a single valence electron is typically a highly reactive metal (like alkali metals). The metal can easily lose its single electron, and the nonmetal can readily gain that electron, leading to a strong ionic bond.
**an element with a high electronegativity and an element with a single valence electron.**
This is because an element with high electronegativity is likely to be a nonmetal (like halogens), which tends to attract electrons, while an element with a single valence electron is typically a highly reactive metal (like alkali metals). The metal can easily lose its single electron, and the nonmetal can readily gain that electron, leading to a strong ionic bond.