CH4 is a covalent compound.It is non polar
ionic? carbon needs 4 electrons to be stable and there are 4 hydrogens who each want to give one
Silver Nitrate is not a covelant bond it is and Ionic
NaH and IBr3 are ionic compounds. NaH is composed of a metal (Na) and a nonmetal (H), creating an ionic bond. IBr3 is also an ionic compound as it contains a metal (I) and a nonmetal (Br) forming an ionic bond. Ph3 and CH4 are covalent compounds as they involve sharing of electrons between nonmetal atoms.
If you mean ionic, covelant or metallic: Metallic bonding is between 2 metal atoms. Ionic bonding is betwen non metal and metal atoms. Covelant bonding is between 2 non-metals.
The bond between carbon and oxygen in C2O is considered to be covalent, as both carbon and oxygen atoms share electrons to form a stable bond. Ionic bonds involve the transfer of electrons from one atom to another, which is not the case in this molecule.
Yes,it has single covalent bonds.There are four such bonds.
An ionic bond involves a transfer of electrons from one atom to another . Covalent bonds involve a sharing.
ionic? carbon needs 4 electrons to be stable and there are 4 hydrogens who each want to give one
Silver Nitrate is not a covelant bond it is and Ionic
NaH and IBr3 are ionic compounds. NaH is composed of a metal (Na) and a nonmetal (H), creating an ionic bond. IBr3 is also an ionic compound as it contains a metal (I) and a nonmetal (Br) forming an ionic bond. Ph3 and CH4 are covalent compounds as they involve sharing of electrons between nonmetal atoms.
Nonpolar Covelant
If you mean ionic, covelant or metallic: Metallic bonding is between 2 metal atoms. Ionic bonding is betwen non metal and metal atoms. Covelant bonding is between 2 non-metals.
doodoo
CH4 forms a covalent bond. In a covalent bond, atoms share electrons to achieve a stable electron configuration. In the case of CH4, each hydrogen atom shares one electron with the carbon atom to complete its outer shell, resulting in a stable methane molecule.
The bond between carbon and oxygen in C2O is considered to be covalent, as both carbon and oxygen atoms share electrons to form a stable bond. Ionic bonds involve the transfer of electrons from one atom to another, which is not the case in this molecule.
You have to now the VSERP theory. The number of valence electrons determine the polarity of the molecule as well of the electronegativities of the elements involved. The less symmetric the molecule the more polar it is.
CH4 represents a molecule, not a bond at all. The bonds within this molecule are covalent.