Most organic (or molecular) compounds are not electrically conductive, although a few are. Conductive polymers can be conductive.
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No, covalent molecular compounds are not conductive because they consist of molecules held together by covalent bonds, which do not allow the flow of electric current as they do not have freely moving charged particles.
The properties of both ionic and molecular compounds are related to their chemical bonding. Ionic compounds have strong electrostatic interactions between positively and negatively charged ions, resulting in high melting points and conductivity when dissolved in water. Molecular compounds have covalent bonds between atoms and tend to have lower melting points, are usually not conductive, and can exist as gases, liquids, or solids at room temperature.
The differences in properties between ionic and molecular compounds are primarily due to the nature of their chemical bonding. Ionic compounds have strong electrostatic attractions between oppositely charged ions, leading to high melting and boiling points, as well as conductivity in solution. In contrast, molecular compounds have weaker intermolecular forces, resulting in lower melting and boiling points, and most are not conductive in solution.
Molecular compounds in water form solutions where the molecules remain intact and dispersed individually. Ionic compounds, on the other hand, dissociate into ions when in water, resulting in conductive solutions due to the presence of charged particles. Additionally, molecular compounds generally do not conduct electricity in solution.
do not break up into ions.
No, covalent molecular compounds are not conductive because they consist of molecules held together by covalent bonds, which do not allow the flow of electric current as they do not have freely moving charged particles.
The properties of both ionic and molecular compounds are related to their chemical bonding. Ionic compounds have strong electrostatic interactions between positively and negatively charged ions, resulting in high melting points and conductivity when dissolved in water. Molecular compounds have covalent bonds between atoms and tend to have lower melting points, are usually not conductive, and can exist as gases, liquids, or solids at room temperature.
The differences in properties between ionic and molecular compounds are primarily due to the nature of their chemical bonding. Ionic compounds have strong electrostatic attractions between oppositely charged ions, leading to high melting and boiling points, as well as conductivity in solution. In contrast, molecular compounds have weaker intermolecular forces, resulting in lower melting and boiling points, and most are not conductive in solution.
Molecular compounds in water form solutions where the molecules remain intact and dispersed individually. Ionic compounds, on the other hand, dissociate into ions when in water, resulting in conductive solutions due to the presence of charged particles. Additionally, molecular compounds generally do not conduct electricity in solution.
do not break up into ions.
the relationship between prefixes and molecular compounds is that, prefix are used to name molecular compounds.
When molecular compounds bond, they share electrons.
You think probable to a glass.
Molecular compounds are typically non-conductive because their electrons are tightly bound. However, some molecular compounds, like acids or salts when dissolved in water, can ionize into charged particles that can conduct electricity. This is because the ions are free to move and carry an electric current.
Because there are no compounds that aren't molecules/molecular. The question as posed is nonsense. Rephrase?
Yes, molecular compounds can be formed from semimetals. These compounds result from the bonding of semimetal atoms to form molecules, often through sharing electrons in covalent bonds. Examples of molecular compounds with semimetals include carbon monoxide (CO) and boron trifluoride (BF3).
Molecular (covalent) compounds are not dissociated in water.