Which elements would react most easily with each other? (1 point)Responsesan element with a high electronegativity and an element with a full shell of electronsan element with a high electronegativity and an element with a full shell of electronsan element with a high electronegativity and a second element with a high electronegativityan element with a high electronegativity and a second element with a high electronegativityan element with a high electronegativity and an element with low reactivityan element with a high electronegativity and an element with low reactivityan element with a high electronegativity and an element with a single valence electron
an element with a high electronegativity and an element with a low reactivity
An element with a high electronegativity and an element with a single valence electron would be most likely to react easily with each other.
To determine which elements would react most easily with each other, we need to consider two factors: electronegativity and electron configuration.
Electronegativity is a measure of an element's ability to attract electrons towards itself in a chemical bond. Elements with high electronegativity values tend to attract electrons strongly, making them more likely to form chemical bonds with other elements.
On the other hand, electron configuration refers to the arrangement of electrons in an atom's energy levels or shells. An element with a full shell of electrons is more stable and less likely to react with other elements since it has achieved a favorable electron configuration.
Considering these factors, the option "an element with a high electronegativity and an element with a full shell of electrons" would be the most accurate answer. This is because an element with high electronegativity would readily attract electrons, while an element with a full shell of electrons would be stable and less likely to lose or gain electrons.
It is important to note that other factors like the specific elements involved, their valence electrons, and additional considerations may also affect the reactivity of elements. However, based on the given options, the combination of high electronegativity and a full shell of electrons would generally result in greater reactivity between elements.