covalent bonds and molecular solids are characteristic of organic compounds
covalent. just remember organic usually means it contains carbon, and carbon likes to share electrons, which is what a covalent bond is.
Organic chemistry is defined as 'the chemistry of compounds of Carbon'. Or, more accurately, compounds containing carbon-hydrogen bonds. (For example, carbon dioxide doesn't count as organic.)
Organic compounds tend NOT to be ionic - there are exceptions. Organic Chemistry is defined as the Chemistry of Compounds of Carbon. Ionic forces tend to intercede when we add Oxygen.
Organic compounds with single bonds have saturated bonds. Unsaturated bonds are double or triple bonds. Compounds with saturated bonds have the maximum number of atoms that can be bond.
For example organic compounds.
Molecular compounds tend to have the lowest melting points.
Covalent Bonds
Covalent bonds are common in organic compounds!
Organic chemistry is defined as 'the chemistry of compounds of Carbon'. Or, more accurately, compounds containing carbon-hydrogen bonds. (For example, carbon dioxide doesn't count as organic.)
Organic compounds tend NOT to be ionic - there are exceptions. Organic Chemistry is defined as the Chemistry of Compounds of Carbon. Ionic forces tend to intercede when we add Oxygen.
No. Organic compounds are almost exclusively covalent.
Organic compounds with single bonds have saturated bonds. Unsaturated bonds are double or triple bonds. Compounds with saturated bonds have the maximum number of atoms that can be bond.
For example organic compounds.
No. Carbon-hydrogen bonds are found in organic compounds.
Molecular compounds tend to have the lowest melting points.
Organic compounds with double bonds are classified as alkenes, and end with the suffix -ene, such as pentene or butene. Compounds with triple bonds are called alkynes, and end with -yne, such as octyne or propyne.
Organic compounds have covalent bonds.
Functional groups are an aspect of organic chemistry that signifies the specific groups of atoms and bonds in molecules that are responsible for the characteristic behaviors of the class of compounds that the group is in.