Water is a molecular substance. It is composed of molecules made up of two hydrogen atoms and one oxygen atom. Each water molecule is independent and not interconnected in a network structure.
The molecular mass of water vapour is 18.01528
Water (H2O) is the source of the molecular oxygen.
When molecular compounds dissolve in water, they generally break apart into individual molecules rather than ions. This process involves the interaction between water molecules and the solute, leading to the formation of a homogeneous solution. Some molecular compounds may also undergo hydrogen bonding with water, which can affect their solubility. However, not all molecular compounds are soluble in water; their solubility depends on their polarity and molecular structure.
Anhydrous H2CO3 (carbonic acid) is molecular, not ionic. It does not dissociate into ions in the absence of water.
HNO3 (nitric acid) is ionic.
The molecular abbreviation for water is H2O.
Glucose is a covalent molecular compound. It consists of individual glucose molecules joined together by covalent bonds between the atoms within each molecule. Covalent network compounds involve an extended network of covalent bonds extending throughout the structure, which is not the case for glucose.
The molecular mass of water vapour is 18.01528
Network solids have a three-dimensional structure with strong covalent bonds throughout, leading to a higher melting point compared to molecular solids which have weaker intermolecular forces. In network solids, a larger amount of energy is required to break the extensive network of covalent bonds, resulting in a higher melting point.
The molecular weight of water is 18 lb/lbmol.
Water dissolves some molecular compounds because water is a polar molecule.
Water does not freeze easily because of its unique molecular structure. The hydrogen bonds between water molecules create a network that makes it difficult for them to arrange into a solid, allowing water to remain in a liquid state at temperatures below freezing.
ionic, covalent (molecular and network), and metallic
no. they are different
Phosphorus - covalent network Argon - covalent molecular
Water (H2O) is the source of the molecular oxygen.
A 37% aqueous (water) solution of formaldehyde. The molecular formula of water is H2O and of formaldehyde is CH2O.