No, while some organic compounds can form hydrogen bonds, these bonds are not inherently organic. Hydrogen bonds occur where hydrogen is bonded to a highly electronegative element such as oxygen or nitrogen. Organic compounds must contain carbon, which is not related to hydrogen bonding.
Hydrogen bonding is a type of intermolecular force of attractionAdded:This is between molecules.It is not as strong as chemical bonding within molecules (intramolecular) though.
the hydrogen bonding is possible in oxygen, nitrogen,and fluorine
The hydrogen bonding present between the two molecules is known as intermolecular hydrogen bonding, the molecules may be similar or may be dissimilar. The molecules having intermolecular hydrogen bonding have high melting and boiling points and low volatility. They are more soluble in water as compared to the molecules having intramolecular hydrogen bonding.
Yes, The hydrogen atom that is covalently bonded to the oxygen can form hydrogen bonding, because the C-H bonds aren't polar enough.
Since each of these molecules contain an -OH group, ethanoic acid exhibits hydrogen bonding.
Organic substances contain carbon and hydrogen atoms. Organic compounds are formed by bonding carbon and hydrogen atoms. There can be more elements too. An atom can never be organic.
flourine oxygen and nitrogen forms hydrogen bonding with hydrogen
Just one.
nope, there's no hydrogen bonding because the hydrogen is not bonding whit any fluorine, just with the carbon
Hydrogen bonding
The intramolecular hydrogen bonding can be determined by
hydrogen bonding
FON Remember this as it mean only hydrogen bonded to fluorine, oxygen and nitrogen will exhibit hydrogen bonding H2O ( water ) = hydrogen bonding as hydrogen is bonded to oxygen CO ( carbon monoxide ) = no hydrogen bonding Think electronegative differences.
Covalent bonding and some of these bonds (C-O and O-H) are polar.
No.
I assume you mean CH3NH2, methylamine. This has hydrogen bonding between molecules.
Hydrogen bonding is necessary for forming double-stranded DNA molecules.