As written it is meaningless. !!!!
However, , it should be written as CH3CH2OH . Note the use of capital letter for elemental symbols. This is the internationally recognised standard.
CH3CH2OH is Ethanol , archaically 'ethyl alchol'. It is the alcohol that is foun in beers wines and spirits.
As written CH3CH2OH it can redrawn as
H3C-CH2-O-H .
The lines/hashes indicating where the principal single covalent bonds lie. The hydrogens (H3 & H2) are directly combined to their adjacent carbons per a single covaalent bond. The 'O' of the '-O-H' moiety is directly combined to the carbon , NOT the adjacent hydrogen.
CHEERS!!!!!
The condensed structural formula for ethanol is CH3CH2OH.
CH3CH2OH, which is ethanol, is a weak acid because it can donate a proton (H+) in a chemical reaction.
EtOH stands for ethanol, which is a commonly used solvent in many chemistry applications and lab processes due to its ability to dissolve a wide range of substances.
Yes, CH3CH2OH (ethanol) is a covalent compound. It is made up of nonmetals (carbon, hydrogen, and oxygen) sharing electrons to form covalent bonds.
Yes, both CH3CH2OH (ethanol) and H2O (water) exhibit hydrogen bonding due to the presence of polar O-H bonds. This makes their intermolecular forces similar.
The condensed structural formula for ethanol is CH3CH2OH.
The structural formula CH3CH2OH represents ethanol, which is a common type of alcohol that is used in beverages and as a fuel.
no
CH3CH2OH, which is ethanol, is a weak acid because it can donate a proton (H+) in a chemical reaction.
No, It is a non-electrolyte,
7 X 10^-6 mol CH3CH2OH (6.022 X 10^23/1 mol CH3CH2OH) = 4 X 10^18 molecules
EtOH stands for ethanol, which is a commonly used solvent in many chemistry applications and lab processes due to its ability to dissolve a wide range of substances.
Yes, CH3CH2OH (ethanol) is a covalent compound. It is made up of nonmetals (carbon, hydrogen, and oxygen) sharing electrons to form covalent bonds.
6
Ethyl alcohol or ethanol.
Yes, both CH3CH2OH (ethanol) and H2O (water) exhibit hydrogen bonding due to the presence of polar O-H bonds. This makes their intermolecular forces similar.
The reaction between CH3 and CH3CH2OH (ethanol) is a radical substitution reaction. The expected product would be ethane (CH3CH3) and a ethoxy radical (CH3CH2Oβ’).