The answer is the hydroxyl group (-OH) -novanet
Ethanol (CH3CH2OH) is a polar molecule. The oxygen atom is more electronegative than the carbon atoms, creating a significant dipole moment in the molecule. This polarity allows ethanol to form hydrogen bonds with water and other polar molecules.
I would replace that word 'most' with 'totally' ... ethanol and water mix in all proportions.
Yes, CH3CH2OH (ethanol) can participate in hydrogen bonding. Hydrogen bonding occurs when a hydrogen atom is covalently bonded to a highly electronegative atom (such as oxygen in this case) and is also attracted to another electronegative atom. In ethanol, the hydrogen atom bonded to the oxygen can form hydrogen bonds with other electronegative atoms, such as oxygen or nitrogen in other molecules.
Ethanol and methanol are both types of alcohol with similar chemical structures. They are commonly used as solvents, fuels, and disinfectants. However, they have different toxicities, with methanol being more toxic than ethanol when ingested.
The alcohol functional group is -OH (hydroxyl group) attached to a carbon atom. It is a common functional group found in alcohols such as ethanol and methanol. Alcohols exhibit unique chemical properties due to the presence of this functional group.
The reaction between ethanol (CH3CH2OH) and an oxidizing agent yields acetaldehyde (CH3CHO). This process involves the loss of hydrogen atoms, resulting in the conversion of the alcohol functional group (-OH) to an aldehyde functional group (-CHO).
Functional group of ethanol is -OH.
Ethanol (CH3CH2OH) is a polar molecule. The oxygen atom is more electronegative than the carbon atoms, creating a significant dipole moment in the molecule. This polarity allows ethanol to form hydrogen bonds with water and other polar molecules.
CH3CH2OH, also known as ethanol, is a polar molecule. This polarity arises from the presence of the hydroxyl (-OH) functional group, which has a significant difference in electronegativity between oxygen and hydrogen, creating a dipole moment. The hydrocarbon (ethyl) part of the molecule is nonpolar, but overall, the polar -OH group dominates, making ethanol soluble in water and polar solvents.
I would replace that word 'most' with 'totally' ... ethanol and water mix in all proportions.
No. A hydroxyl group consists of an oxygen bonded to a hydrogen (-OH). A single hydroxyl group on an alkyl chain characterizes the alcohol family of organic compounds (i.e. ethanol: CH3CH2OH).
the question is not a specific one alcohol is group of dervities those organic compound which has OH as their functional group were said to be so generally there are methanol, the basic structure CH3OH where in it has 1 carbon atom 4 hydrogen atom and one oxygen atom in toto 6 atom next is ethanol which has one more carbon and 2 more hydrogen and so on please refer plus two book for clear solution
Ethanol, or drinking alcohol, is a solvent and reagent with the chemical formula CH3CH2OH.Ethanal, better known as acetaldehyde, is an aldehyde with the formula CH3CHO.
Yes, CH3CH2OH (ethanol) can participate in hydrogen bonding. Hydrogen bonding occurs when a hydrogen atom is covalently bonded to a highly electronegative atom (such as oxygen in this case) and is also attracted to another electronegative atom. In ethanol, the hydrogen atom bonded to the oxygen can form hydrogen bonds with other electronegative atoms, such as oxygen or nitrogen in other molecules.
Ethanol and methanol are both types of alcohol with similar chemical structures. They are commonly used as solvents, fuels, and disinfectants. However, they have different toxicities, with methanol being more toxic than ethanol when ingested.
The alcohol functional group is -OH (hydroxyl group) attached to a carbon atom. It is a common functional group found in alcohols such as ethanol and methanol. Alcohols exhibit unique chemical properties due to the presence of this functional group.
Functional Group! :)