They must be aromatic or highly conjugated compounds.
A polar organic compound is a molecule containing carbon and other elements such as oxygen, nitrogen, or sulfur, which exhibit an uneven distribution of electron density due to differences in electronegativity. This results in a separation of partial positive and negative charges, making the molecule polar. Polar organic compounds are typically soluble in polar solvents and exhibit properties such as hydrogen bonding.
You may be referring to organic compounds. All organic compounds contain carbon but all compounds that contain carbon are not necessarily organic. A more general term would be carbonaceous.
There are 2 elements that all the organic compounds have. They are carbon and hydrogen. Most organic compounds contain oxygen.
Covalent bonds exist in all organic compounds. These bonds involve sharing of electrons between atoms, which allows organic molecules to form complex structures and exhibit diverse chemical properties.
Some exceptions for classifying organic compounds include certain inorganic compounds that contain carbon, such as carbonates and cyanides, and some organometallic compounds that contain metal atoms bonded to carbon atoms. Additionally, some compounds may exhibit properties that blur the lines between organic and inorganic classifications, such as certain metalloorganic compounds.
A polar organic compound is a molecule containing carbon and other elements such as oxygen, nitrogen, or sulfur, which exhibit an uneven distribution of electron density due to differences in electronegativity. This results in a separation of partial positive and negative charges, making the molecule polar. Polar organic compounds are typically soluble in polar solvents and exhibit properties such as hydrogen bonding.
You may be referring to organic compounds. All organic compounds contain carbon but all compounds that contain carbon are not necessarily organic. A more general term would be carbonaceous.
In general, inorganic compounds are not very soluble in organic solvents. This is because organic solvents are primarily non-polar, while most inorganic compounds are ionic or polar in nature. However, there are exceptions where certain inorganic compounds may exhibit some solubility in specific organic solvents.
Not always, while organic compounds my not exhibit all of the properties of a metal they may exhibit some. A compound with a metallic sheen does not necessarily make it a metal. Some organic compounds come in the form of sugars. Granulated sugar, Glucose C6H12O6, is an organic compound, while grandulated salt NaCl, is not. The carbon makes it organic.
There are 2 elements that all the organic compounds have. They are carbon and hydrogen. Most organic compounds contain oxygen.
Covalent bonds exist in all organic compounds. These bonds involve sharing of electrons between atoms, which allows organic molecules to form complex structures and exhibit diverse chemical properties.
Some exceptions for classifying organic compounds include certain inorganic compounds that contain carbon, such as carbonates and cyanides, and some organometallic compounds that contain metal atoms bonded to carbon atoms. Additionally, some compounds may exhibit properties that blur the lines between organic and inorganic classifications, such as certain metalloorganic compounds.
Not all hydrophobic compounds are organic; hydrophobicity refers to the tendency of a substance to repel water, which can apply to both organic and inorganic substances. Organic compounds, typically containing carbon and hydrogen, are often hydrophobic due to their nonpolar characteristics. However, there are also inorganic compounds, such as certain metals and nonmetals, that can exhibit hydrophobic properties. Therefore, while many hydrophobic substances are organic, the classification is not exclusive to them.
As covalent compounds, organic compounds tend to have relatively low melting and boiling points, be non-conductive of electricity, and have lower solubility in water. They also commonly exhibit isomerism, meaning they can have the same chemical formula but different structural arrangements, leading to a wide range of diverse compounds.
Actually the melting point depends on the molecule under consideration. But, in general inorganic compounds have higher melting point than organic compounds. However, there are many exceptions to this statement.
Basically, organic compounds have carbon. Inorganic do not (though there are some exceptions). Inorganic bases are generally OH- donors, whereas organic bases are generally nitrogen base donors.
Homologous series of organic compounds are families of compounds that have similar chemical properties due to having the same functional group and a repeating pattern of carbon atoms. Members of the series will have the same general formula and exhibit a trend in physical properties as the number of carbon atoms increases. Examples include alkanes, alkenes, and alkynes.