Copper is a single element so it is nonpolar.
A polar substance forms when two or more elements with different electronegativities bond form a compound.
CuSO4 is ionic.
CuSO4 is an ionic compound. This is because it is composed of a metal (Cu) and a nonmetal (S and O), which typically form ionic bonds through the transfer of electrons.
Yep. Cu is positively charged, and SO4 is negatively charged.
Yes, CuSO4 is an ionic compound. It is made up of copper (Cu) ions carrying a positive charge and sulfate (SO4) ions carrying a negative charge.
CuSO4 is an ionic compound composed of a metal (Cu) and a non-metal group (SO4). In this compound, copper gives up electrons to oxygen and sulfur atoms, forming positively charged ions (Cu2+) and negatively charged ions (SO4 2-) that are held together by ionic bonds.
CuSO4 is ionic.
CuSO4 is an ionic compound. This is because it is composed of a metal (Cu) and a nonmetal (S and O), which typically form ionic bonds through the transfer of electrons.
CuSO4 is ionic and water is polar. The types of bonding allow water to dissolve the salt much more easily than an organic solvent (e.g. alcohol, hexane) could.
Yep. Cu is positively charged, and SO4 is negatively charged.
Yes, CuSO4 is an ionic compound. It is made up of copper (Cu) ions carrying a positive charge and sulfate (SO4) ions carrying a negative charge.
CuSO4 is an ionic compound composed of a metal (Cu) and a non-metal group (SO4). In this compound, copper gives up electrons to oxygen and sulfur atoms, forming positively charged ions (Cu2+) and negatively charged ions (SO4 2-) that are held together by ionic bonds.
No, baking soda is not polar. It is, however, Ionic.
Between the copper and the sulfate, CuSO4, there is an ionic bond.Cu 2+andSO4 2----------------The hydrated part, water, is a polar covalent molecule with the unequal sharing of electrons between the oxygen atom and the two hydrogen atoms.
Copper (II) sulfate is ionically bonded.
NaCl is an ionic compound, certainly not nonpolar.
Be and Cl form an ionic bond (BeCl2), and it is polar.
Polar!