Because graphite has one free electron that is not involved in bonding. The one delocalized electron can be used to conduct electricity. However silicon carbide is tetrahedrally bonded to 4 carbon atoms. There is not free electrons in the arrangement. With no delocalized electron, silicon carbide is unable to conduct electricity
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Because graphite has one free electron that is not involved in bonding. The one delocalized electron can be used to conduct electricity. However silicon carbide is tetrahedrally bonded to 4 carbon atoms. There is not free electrons in the arrangement. With no delocalized electron, silicon carbide is unable to conduct electricity.
Yes, giant covalent structures can conduct electricity when molten because the atoms are free to move and carry charge. This allows for the formation of a continuous pathway for the flow of electricity. Examples of giant covalent structures that can conduct electricity when molten include graphite and silicon.
The chemical formula for silicon carbide is SiC
Oh, dude, you're getting into some chemistry territory here. So, like, silicon carbide is actually a compound made up of silicon and carbon atoms, not just one carbon atom, hence the name. It's like calling a sandwich a sandwich and not just bread. So, yeah, that's why it's called silicon carbide and not silicon monocarbide.
The chemical formula for silicon carbide is SiC. It consists of one silicon atom bonded to one carbon atom in a covalent bond.
Because graphite has one free electron that is not involved in bonding. The one delocalized electron can be used to conduct electricity. However silicon carbide is tetrahedrally bonded to 4 carbon atoms. There is not free electrons in the arrangement. With no delocalized electron, silicon carbide is unable to conduct electricity.
Some metalloids, such as silicon, conduct electricity. Graphite(pencil lead) also conducts a bit.
Graphite is a non metals which conducts electricity well.Also there are electric conducting non metal.Also many liquids conduct electricity.Semi conductors like Silicon,Germanium also conduct electricity.
The common name of silicon carbide is carborundum.
yes. For instance graphite or silicon.
Silicon is my best guess
Some non-metal objects that conduct electricity include graphite, which is a form of carbon, and certain types of water, such as mineral-laden water. Semiconductor materials like silicon and germanium can also conduct electricity under certain conditions.
Yes, giant covalent structures can conduct electricity when molten because the atoms are free to move and carry charge. This allows for the formation of a continuous pathway for the flow of electricity. Examples of giant covalent structures that can conduct electricity when molten include graphite and silicon.
It could be named any one of monosilicon tetrafluoride, silicon tetrafluoride, or tetrafluorosilane.
The chemical formula for silicon carbide is SiC
Silicon carbide is a covalent compound, not an ionic one. It is composed of silicon and carbon atoms held together by covalent bonds, where electrons are shared between the atoms.
Silicon or Germanium Graphite is an excellent electrical conductor