Sulfur and oxygen form a covalent bond. You would expect this, since they are both non-metals. To get an ionic bond you need a metal bonding with a non-metal.
It is not ionic.It is a covalent compound.
Covalent because they are both non metals
SO2 is covalent.
SO2 sulfur dioxide is covalent
molecular
covalent
no. all bonds are covalent
It is ionic
Is Ag3N covalent or ionic
ionic - Sodium Chloride Covalent - Water ionic - Sodium Chloride Covalent - Water
Molecules can be ionic OR covalent, but not both. PbI2 (lead iodine), however, is ionic.
no. all bonds are covalent
The bond between sulfur and oxygen in SOCl2 is a coordinate covalent bond. This type of bond is formed when both electrons shared in the bond come from the same atom, in this case, sulfur donates both electrons to form the bond with oxygen.
This is an ionic compound.
ClO2 is a covalent compound. It consists of covalent bonds between the atoms, specifically a double bond between the central chlorine atom and one of the oxygen atoms, and single bonds between the central chlorine atom and the other oxygen atom, and between each oxygen atom and the central chlorine atom.
CH2Br2 is a covalent compound. It is formed by sharing electrons between carbon (C), hydrogen (H), and bromine (Br) atoms, rather than transferring electrons as in the case of ionic compounds.
It is ionic
Al2(SO4)3 is an ionic compound. Aluminum (Al) is a metal that typically forms cations, while sulfate (SO4) is a polyatomic ion that carries a charge. In this compound, aluminum ions and sulfate ions are held together by ionic bonds.
Is Ag3N covalent or ionic
Is CsL ionic or covalent
Ammonium acetate is an ionic compound. It is formed from the ionic bond between the positively charged NH4+ ion (ammonium) and the negatively charged CH3COO- ion (acetate).
AlPO4 is considered to have both ionic and covalent characteristics. The Al-P bonds are more ionic due to the electronegativity difference between aluminum and phosphorus, while the P-O bonds are more covalent. Therefore, AlPO4 is best described as having a mixture of ionic and covalent bonding.
SnCl4 is a covalent compound. It is formed when tin (Sn), a metal, bonds with chlorine (Cl), a nonmetal, through covalent bonds.