weaker than the attractive forces among formula units in ionic bonding
In a covalent molecular compound, intermolecular forces such as London dispersion forces, dipole-dipole interactions, and hydrogen bonding (if applicable) are responsible for the attractions between molecules. These forces can be strong in some cases, but they are generally weaker than the ionic or metallic bonds found in other types of compounds.
Yes, HBr is a molecular compound. It consists of covalent bonds between hydrogen and bromine atoms, forming molecules of HBr.
CO2 is a molecular compound. It is composed of molecules made up of covalently bonded atoms of carbon and oxygen.
A compound is molecular if it is made up of individual molecules containing covalently bonded atoms. One way to determine if a compound is molecular is to check if it consists of nonmetal elements bonded together. If it does, then it is likely a molecular compound.
Acetone is a molecular compound. It consists of individual molecules made up of covalently bonded atoms, specifically carbon, hydrogen, and oxygen.
When naming a molecular compound, generally
In a covalent molecular compound, intermolecular forces such as London dispersion forces, dipole-dipole interactions, and hydrogen bonding (if applicable) are responsible for the attractions between molecules. These forces can be strong in some cases, but they are generally weaker than the ionic or metallic bonds found in other types of compounds.
COVALENT
Yes, HBr is a molecular compound. It consists of covalent bonds between hydrogen and bromine atoms, forming molecules of HBr.
CO2 is a molecular compound. It is composed of molecules made up of covalently bonded atoms of carbon and oxygen.
Yes. Water is a molecular compound.
A compound is molecular if it is made up of individual molecules containing covalently bonded atoms. One way to determine if a compound is molecular is to check if it consists of nonmetal elements bonded together. If it does, then it is likely a molecular compound.
Acetone is a molecular compound. It consists of individual molecules made up of covalently bonded atoms, specifically carbon, hydrogen, and oxygen.
The weight average molecular weight of the compound is the average of the molecular weights of all the molecules in the sample, weighted by their relative abundance.
C6H10O is a molecular compound because it is composed of covalently bonded atoms. Ionic compounds are formed from the attraction between positively and negatively charged ions.
Ammonia is a molecular compound. It consists of individual molecules made up of covalently bonded atoms (one nitrogen and three hydrogen). It does not contain ions like in ionic compounds.
Molecular compounds generally do not conduct electricity and have low melting points.