The bond formed between hydrogen (H) and bromine (Br) results from a sharing of electrons where H provides 1 electron and Cl provides 1 electrons to form H : Br or H-Br. This is a covalent bond because there is a sharing of electrons. You would know this because H has only 1 valence electron and Br has 7 valence electrons. Br would like 1 more electron to complete the octet, and so it shares the electron that H has. You would also know it is covalent because both H and Br are NONMETALS, and when 2 nonmetals bond together, they form a covalent bond.
It is a polar bond because of the difference in electronegativity between H and Br. Since Br is more electronegative, it will pull electrons toward itself, making the bond polar.
So, in summary, the H - Br bond is polar covalent.
Explanation:
correct me if im wrong.
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Answer:
The bond formed between hydrogen (H) and bromine (Br) results from a sharing of electrons where H provides 1 electron and Cl provides 1 electrons to form H : Br or H-Br. This is a covalent bond because there is a sharing of electrons. You would know this because H has only 1 valence electron and Br has 7 valence electrons. Br would like 1 more electron to complete the octet, and so it shares the electron that H has. You would also know it is covalent because both H and Br are NONMETALS, and when 2 nonmetals bond together, they form a covalent bond.
It is a polar bond because of the difference in electronegativity between H and Br. Since Br is more electronegative, it will pull electrons toward itself, making the bond polar.
So, in summary, the H - Br bond is polar covalent.
Explanation:
correct me if im wrong.