Yes!!! The two most well known covalent compounds are water(H2O) and carbon dioxider (CO2). Yhere are many more covalent compounds.
Conversely the most well known ionic compound is sodium chloride ( common table salt).
Many substances have a mixture of covalent and ionic bonding. e.g. calcium carbonate. The calcium is ionically conded to the carbonate, but the bonds within the carbonate are covalent.
No, covalent molecular compounds are typically not ductile because they are made up of individual molecules held together by covalent bonds. These compounds have a molecular structure that does not allow for the same type of malleability or flexibility as metallic or ionic compounds.
Molecular compounds are formed from covalent bonds between nonmetals. They have relatively low melting and boiling points, are generally insoluble in water, and tend to be gases or liquids at room temperature. They do not conduct electricity in either solid or liquid state.
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.
Molecular and covalent bonds aren't really the same. It is chemical bonds that hold molecules together. These chemical bonds might be called molecular bonds, and they come in two basic flavors: ionic bonds and covalent bonds. A molecular bond might be covalent, but it might be ionic, and that's the difference.
CCL4, carbon tetrachloride, contains covalent bonds between the carbon and chlorine atoms. It is a molecular compound with no ions, so it does not contain ionic compounds.
Covalent Bonds
No, covalent molecular compounds are typically not ductile because they are made up of individual molecules held together by covalent bonds. These compounds have a molecular structure that does not allow for the same type of malleability or flexibility as metallic or ionic compounds.
Molecular compounds are formed from covalent bonds between nonmetals. They have relatively low melting and boiling points, are generally insoluble in water, and tend to be gases or liquids at room temperature. They do not conduct electricity in either solid or liquid state.
Atoms in molecular compounds not only can but must share electrons, in order to form the covalent bonds that hold molecular compounds together!
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.
Molecular and covalent bonds aren't really the same. It is chemical bonds that hold molecules together. These chemical bonds might be called molecular bonds, and they come in two basic flavors: ionic bonds and covalent bonds. A molecular bond might be covalent, but it might be ionic, and that's the difference.
CCL4, carbon tetrachloride, contains covalent bonds between the carbon and chlorine atoms. It is a molecular compound with no ions, so it does not contain ionic compounds.
Most of them are, though there are a few that are ionic such as sodium acetate and other organic acid salts. These include ionic bonds, but also contain covalent bonds within a polyatomic ion.
"Bonds" do not "have" bonds, because they are bonds themselves. The questioner may have meant to ask, "Molecular compounds have what type of bonds?", and the answer to that question is "covalent bonds".
nonmetal
Covalent bonds themselves are not soluble because they are intramolecular bonds holding atoms together within a molecule. However, compounds with covalent bonds can have varying degrees of solubility in different solvents depending on the nature of the atoms and the overall molecular structure.
Covalent bond. Molecular compounds are formed by covalent bonds. Ionic bonds and metallic bonds form large crystal lattices (Some large crystals are covalent- like diamond)