metallic bond resulting in the formation of alloys (in this case)
C and N, N and H, Cl and Cl, Xe and Xe can form covalent bonds. Mg and Cl, Li and Cl, Cu and Cl, Fe and Cl can form ionic bonds due to the large difference in electronegativity. K and Cl would form an ionic bond as well.
Cu-Cl is more ionic than I-Cl as the difference in the electronegativity is more in the case of Cu and Cl.
K. Cu. Cl
An anion, is an ion with more electrons than protons, giving it a net negative charge. Chloride would have the greater negative charge with Iodide.
Covalent bonds are formed between a metal and a non-metal. Cu is copper, a metal, so it will react with F to form CuF, a compound with ionic bonds.
C and N, N and H, Cl and Cl, Xe and Xe can form covalent bonds. Mg and Cl, Li and Cl, Cu and Cl, Fe and Cl can form ionic bonds due to the large difference in electronegativity. K and Cl would form an ionic bond as well.
Cu-Cl is more ionic than I-Cl as the difference in the electronegativity is more in the case of Cu and Cl.
K. Cu. Cl
Cl2 + 2Cu --> 2CuCl Oxidation reaction is Cu --> Cu+ + 1e Reduction reaction is Cl + 1e --> Cl- Redox reaction is Cu + Cl --> Cu+ + Cl-
An anion, is an ion with more electrons than protons, giving it a net negative charge. Chloride would have the greater negative charge with Iodide.
Covalent bond between the two as the electronegativity difference between Cu ans S is below 1.7
Covalent bonds are formed between a metal and a non-metal. Cu is copper, a metal, so it will react with F to form CuF, a compound with ionic bonds.
Ag-Cu forms a metallic bond. In this type of bond, electrons are shared among all the atoms within the metal lattice, leading to a strong attraction between the positively charged metal ions and the delocalized electrons.
Copper (Cu) does not form more than one type of cation.
No. Sodium and copper are both metals and so will not form a compound
Yes, Cu(OH)Cl is considered an acidic salt because it contains both a cation (Cu2+) and an anion (OH- and Cl-) that can contribute to acidic properties when dissolved in water.
47.27% Cu 52.73% Cl