The incorrect answer is CsI.
CsI is a crystalline solid. The types of solids listed above represent the properties that the molecular structure has. For example, many molecular solids consist of carbon and hydrogen, with an occasional diatomic molecule thrown in such as O2. CsI is under the category of a salt, which also has a crystalline structure. And ionic solids are solids made out of molecules with oppositely charged ions. And if you look at the location of the two elements on the Periodic Table you can see that they have opposite charges.
Metallic solids....well they contain metal, lol.
H3PO3 is Hydrogen Phosphite. It is a covalent compound.
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.
Glucose is a molecular compound, not ionic. It consists of covalent bonds between its carbon, hydrogen, and oxygen atoms.
No, CF2Cl2 is covalent as the the three elements in it (Carbon, Fluorine, and Chlorine) are all nonmetals. Nonmetals form covalent bonds with one another.
The element chlorine at standard temperature and pressure is molecular and has the formula Cl2.
HNO3 (nitric acid) is ionic.
ionic, covalent (molecular and network), and metallic
H3PO3 is Hydrogen Phosphite. It is a covalent compound.
Covalent, Metallic, and Ionic crystals have high melting points and densities, but molecular crystals tend to be soft and has a lower melting point. Covalent crystal=covalent bond and Ionic crystal=ionic bond.
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.
Glucose is a molecular compound, not ionic. It consists of covalent bonds between its carbon, hydrogen, and oxygen atoms.
A molecular covalent compound
No, CF2Cl2 is covalent as the the three elements in it (Carbon, Fluorine, and Chlorine) are all nonmetals. Nonmetals form covalent bonds with one another.
Carbon dioxide is a covalent compound.
Covalent all.
It is a molecular (covalent) compound. Present day text books refer to a covalent compound as a molecular compound, as opposed to an ionic one.
The element chlorine at standard temperature and pressure is molecular and has the formula Cl2.