the properties of an ionic compound can be explained by ht e strong attractions among ions within a crystal lattice.
They don't ionic bounds have nothing to do with nature.
imdont know really
Metals have high melting points. That is because of metalic bonds.
Molecular (more correct is covalent) compounds have covalent bonds; electrons are shared between two atoms.
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.
Covalent compounds are formed by covalent bonds.
Filial piety and loyalty are some characteristics, but the main idea of Confucianism is the five bonds. The five bonds also relate to family ties.
imdont know really
Filial piety and loyalty are some characteristics, but the main idea of Confucianism is the five bonds. The five bonds also relate to family ties.
Metals have high melting points. That is because of metalic bonds.
Molecular (more correct is covalent) compounds have covalent bonds; electrons are shared between two atoms.
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.
Covalent compounds are formed by covalent bonds.
Covalent bonds are common in organic compounds!
Carbon contains four valence electrons that gives it the flexibility to form a diversity of organic compounds through covalent bonds.
Carbon normally forms four covalent bonds in its compounds, not ionic bonds.
Organic compounds all have one thing in common: Carbon. The reason Carbon (and organic compounds) are popular in nature is carbon can form lots of bonds and, therefore, attach to many atoms. Carbon can form 4 bonds. Organic compounds are not polar. They are nonpolar. It is possible for part of an organic compound to be polar if the end is an alcohol (OH) or some other polar ion is attached.
No, in aromatic compounds and some aliphatic compounds have deloclized pi bonds but in most of the alkenes and alkynes there are localized pi bonds.