Radical
Butanol is not a hydrocarbon because it contains oxygen atoms in its structure in addition to carbon and hydrogen atoms. Hydrocarbons are composed solely of carbon and hydrogen atoms. Butanol is a type of alcohol, which contains an -OH functional group that differentiates it from hydrocarbons.
"OH" group attached to aromatic ring is electrons donor because it has two lone pairs of electrons on oxygen atom which may involve in resonance process, but "OH" group attached to saturated carbon act as electrons attracting group due to high electronegativity of oxygen.
Yes, according to the quantum theory of energy, energy is quantized, meaning it can only change in small discrete units called quanta. This is evident in phenomena such as the quantization of electron energy levels in atoms.
The atoms in a magnet are arranged in some kind of lattice, but the arrangement of the atoms is not what is important. What is important is that the magnetic dipoles of a good portion of the atoms are all "pointing" in the same direction. The aligned atomic magnetic dipoles form groups called magnetic domains, and these are locked in place making the magnet a permanent magnet. It "permanently" holds its magnet field, and is said to be a permanent magnet. And all because the magnetic domains in the ferromagnetic material are largely aligned.
Anions have more electrons than protons. Anions are negatively charged ions, which means they have gained one or more electrons compared to the number of protons present in their nucleus. This electron gain gives them a net negative charge.
alcoholic group having suffix as "ol"
The -OH group is called the hydroxyl group
The answer is the hydroxyl group (-OH) -novanet
Functional group is a part of an organic molecule which takes a part in chemical reaction for example in alcohols functional group is -OH , in carboxylic acids is -COOH and so on, but formaldehyde CH2O is a molecule and it is completely a functional group.
-OH is a functional group. It's not at all clear what you're trying to ask. The functional group is called the hydroxyl group. Its compounds are called "alcohols".
Radical
Functional group of ethanol is -OH.
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 functional group in alcohols is -OH (hydroxyl).
The functional group in alcohols is -OH (hydroxyl).
is responsible for the characteristic reactions of a molecule. It defines the chemical properties and behavior of the compound. Examples of functional groups include hydroxyl (-OH), carbonyl (C=O), and amino (-NH2).
Organic compounds that have an -OH functional group are called alcohols. They include molecules such as methanol, ethanol, and propanol. The -OH group is a hydroxyl group, consisting of an oxygen atom bonded to a hydrogen atom.