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Nope! charcoal is not a pure substance and a major constituent is graphite which is a form of elemental carbon ( an allotrope of carbon). the chmisl bonding in graphite is covalent as the atoms bonded together have the same electronegativity.
no because its a covalent compound, it undergoes covalent bonding. if it was a metallic or ionic then it would conduct when molten or in aqueous state. the only element that undergoes a covalent bonding and conducts electricity is graphite, no other element or allotrope conducts.
LiCl has ionic bonding. (There is no compound with a formula LiCL.)
ionic bonding
Almost all of the compounds of carbon are formed by covalent bonding. Compounds such as diamond and graphite show strict covalent character in bonding.
covalent
Nope! charcoal is not a pure substance and a major constituent is graphite which is a form of elemental carbon ( an allotrope of carbon). the chmisl bonding in graphite is covalent as the atoms bonded together have the same electronegativity.
no because its a covalent compound, it undergoes covalent bonding. if it was a metallic or ionic then it would conduct when molten or in aqueous state. the only element that undergoes a covalent bonding and conducts electricity is graphite, no other element or allotrope conducts.
LiCl has ionic bonding. (There is no compound with a formula LiCL.)
Type of bonding between elements in a compound chemical-chemically is chemical bonding.
Graphite is made of pure carbon atoms. The bond between the C atoms is called a covalent bond.
The purpose of the bonding material is to join the materials being bound.
ionic bonding
Graphite only forms 3 covalent bonds and is arranged in layers so the layers can slide over each other easily.
Almost all of the compounds of carbon are formed by covalent bonding. Compounds such as diamond and graphite show strict covalent character in bonding.
ionic compound eg: NaCl
Caffeine is a covalent compound.