no
Ionic bond.
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.
Zn and K are more likely to form an ionic compound because zinc (Zn) readily loses two electrons to form a 2+ cation, while potassium (K) readily gains one electron to form a 1- anion, allowing for the formation of an ionic bond between the two elements.
An ionic bond is expected between K and Br.
The bond between Br-I is more polar than the bond between Br-Cl. This is because iodine is less electronegative than chlorine, resulting in a larger difference in electronegativity between the two atoms in the bond. Therefore, the Br-I bond will exhibit stronger polarity.
K and Br would bond ionically, with potassium (K) donating an electron to bromine (Br) to form K+ and Br- ions, which are attracted to each other due to their opposite charges. This electrostatic attraction is what holds the two ions together in an ionic bond.
Ionic bond.
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.
Zn and K are more likely to form an ionic compound because zinc (Zn) readily loses two electrons to form a 2+ cation, while potassium (K) readily gains one electron to form a 1- anion, allowing for the formation of an ionic bond between the two elements.
An ionic bond is expected between K and Br.
The bond between Br-I is more polar than the bond between Br-Cl. This is because iodine is less electronegative than chlorine, resulting in a larger difference in electronegativity between the two atoms in the bond. Therefore, the Br-I bond will exhibit stronger polarity.
Br2, bromine has a single covalent bond
Yes. Potassium is a metal and Bromine is a nonmetal, therefore they would make an ionic bond, as there is a complete transfer of electrons between the atoms.
B typically forms a covalent bond due to its smaller size and higher electronegativity compared to Br. Br, on the other hand, is more likely to form an ionic bond due to its lower electronegativity and tendency to gain electrons to achieve a stable octet configuration.
Both Br and Br and H and H form non-polar covalent bonds.
Br-Cl has a more polar bond because chlorine is more electronegative than iodine, resulting in a greater difference in electronegativity between the two elements. This difference in electronegativity leads to a more polar bond in Br-Cl compared to Br-I.
The ionic formula for salt made from potassium and bromine is KBr, where K represents potassium (K+) and Br represents bromine (Br-). Potassium donates one electron to bromine to form a stable ionic bond.