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What pairs of elements is most likely to form a covalent bond?
Non-metal elements like carbon and oxygen are most likely to form covalent bonds due to their similar electronegativities. Additionally, elements that are close to each other on the periodic table are more likely to form covalent bonds.
Would selenium and bromine form a covalent bond?
No, selenium and bromine would not form a covalent bond. Bromine typically forms ionic bonds with other elements due to its high electronegativity, while selenium can form covalent bonds with other nonmetals. In this case, selenium and bromine would likely form an ionic bond rather than a covalent bond.
What pair is most likely to form a covalent bond lithium and iodine sodium and oxygen calcium and chlorine copper and tin or carbon and oxygen?
Carbon and oxygen are the only pair in that list that will form a covalent bond; the others will form ionic bonds, except for copper and tin which will form a metallic bond.
Is aluminum and oxygen likely to form a covalent bond yes or no?
No, aluminum and oxygen are unlikely to form a covalent bond. They are more likely to form an ionic bond, where aluminum loses electrons to oxygen to form aluminum oxide.
Would S and Br form a covalent bond?
Yes, sulfur (S) and bromine (Br) can form a covalent bond. Both elements are nonmetals and are likely to share electrons to achieve a stable octet configuration. This covalent bond would involve the sharing of electrons between the two atoms.
Would nitrogen and phosphorus form a covalent bond?
No, nitrogen and phosphorus would not typically form a covalent bond with each other. Both elements can form covalent bonds, but they are more likely to form bonds with other elements due to differences in electronegativity and chemical properties.
What pairs of elements is most likely to form a covalent bond?
Non-metal elements like carbon and oxygen are most likely to form covalent bonds due to their similar electronegativities. Additionally, elements that are close to each other on the periodic table are more likely to form covalent bonds.
Would selenium and bromine form a covalent bond?
No, selenium and bromine would not form a covalent bond. Bromine typically forms ionic bonds with other elements due to its high electronegativity, while selenium can form covalent bonds with other nonmetals. In this case, selenium and bromine would likely form an ionic bond rather than a covalent bond.
Will these elements form a covalent bond na and Cl?
Yes...they form
What pair is most likely to form a covalent bond lithium and iodine sodium and oxygen calcium and chlorine copper and tin or carbon and oxygen?
Carbon and oxygen are the only pair in that list that will form a covalent bond; the others will form ionic bonds, except for copper and tin which will form a metallic bond.
Is aluminum and oxygen likely to form a covalent bond yes or no?
No, aluminum and oxygen are unlikely to form a covalent bond. They are more likely to form an ionic bond, where aluminum loses electrons to oxygen to form aluminum oxide.
Would S and Br form a covalent bond?
Yes, sulfur (S) and bromine (Br) can form a covalent bond. Both elements are nonmetals and are likely to share electrons to achieve a stable octet configuration. This covalent bond would involve the sharing of electrons between the two atoms.
What two elements or bond to form a covalent compound?
Covalent bonds are between nonmetals.
Is oxygen and oxygen likely to form a covalent bond?
NO!
Which elements can form a triple covalent bond?
Elements like carbon, nitrogen, and oxygen can form triple covalent bonds. These elements have enough valence electrons to share three pairs of electrons, resulting in the formation of a stable triple covalent bond.
What type of bond form when elements share electrons?
covalent bonds
What type of bond that will form between Si S?
A covalent bond will likely form between silicon (Si) and sulfur (S) atoms. In a covalent bond, atoms share electrons to achieve stability. Silicon and sulfur are both nonmetals with similar electronegativities, making them more likely to form covalent bonds.
