Both Li and K lose electrons to get noble gas configuration. Br gains an electron to get noble gas configuration. So K is more likely to form a compound with Br.
Potassium is a metal in group 1. It usually forms ionic compounds with other non metallic elements. From these elements, it is more likely to bond with bromine. Recall that lithium is as in the same family as potassium.
Potassium is a metal in group 1. It usually forms ionic compounds with other non metallic elements. From these elements, it is more likely to bond with bromine. Recall that lithium is as in the same family as potassium.
Both Li and K lose electrons to get noble gas configuration. Br gains an electron to get noble gas configuration. So K is more likely to form a compound with Br.
K and Br are most likely to form a chemical compound.
Cobalt nitrate is an ionic compound.
Ca2+ and Br- obviously must form, CaBr2 Calcium bromide
Both Br and Br and H and H form non-polar covalent bonds.
Those on opposite sides of the periodic table (ignoring the noble gases of course). Like sodium and cloride (to make table salt).
K and Br are most likely to form a chemical compound.
Cobalt nitrate is an ionic compound.
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Ca2+ and Br- obviously must form, CaBr2 Calcium bromide
Both Br and Br and H and H form non-polar covalent bonds.
Those on opposite sides of the periodic table (ignoring the noble gases of course). Like sodium and cloride (to make table salt).
71.5 %
with bromine (Br)
Cu donates electrons to Br to form CuBr. It is a crystalline compound. The bonds have mixed ionic and covalent characters.
The cation,K +and the anion,Br -form the ionic compound,KBr==============Potassium bromide
K is Potassium and Br is Bromine. These are both Elements but together they form a compound
Ca(2+) and Br- are common ions; the neon ion probable doesn't exist.