No, cables can't be drawn out of graphite. As wires can be drawn out of ductile substances like metals As graphite is highty brittle in nature. and non- ductile substance can't be drawn into the cables.
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Graphite is suitable for making carbon contacts because it is a good conductor of electricity, has low resistance, and is chemically stable. Its layered structure allows for easy transfer of electrons, making it ideal for use in electrical contacts.
Graphite has high electrical conductivity due to its delocalized electrons, making it suitable for use as electrodes. Its layered structure also allows for easy movement of electrons within the material, enhancing its performance as an electrode.
To strip electrical wires and to twist mutliple wires together.
graphite is used as lubricant in machinery.also it is used in making leads of pencils.hence graphite is useful.
1) Graphite is used for making the cores of our pencils called pencil leads. 2) It is used for making carbon electrodes. 3) Powdered graphite is used as lubricant.
we use graphite by ever time we use a pencil thats one way we use graphite. Graphite is also used in the making of sports equipment and other every day items since graphite is a lighter material to work with. Like a badminton racquet can be made from graphite to make it lighter.
These materials must be insulators.
wires that have got good conductivity and less losses
graphite
Acids such as sulfuric acid or aqua regia can corrode and destroy electrical wires. It is not recommended to use chemicals to intentionally damage electrical wires, as it can pose safety hazards and is illegal.
No, you should not use a colored red wire in a neutral bar unless it is specifically designated for that purpose. In electrical systems, red wires are typically used as hot wires, while neutral wires are usually white or gray. Mixing these can create a safety hazard, potentially leading to short circuits or electrical shocks. Always follow local electrical codes and guidelines when making such connections.
The layered structure of graphite, in which carbon atoms are arranged in sheets, allows for easy electron mobility, making graphite a good conductor of electricity. This property is essential for graphite electrodes to efficiently carry and transfer electrical current during processes like electrolysis or electrochemical reactions. Additionally, the high thermal stability and resistance to chemical reactions of graphite make it suitable for use in harsh environments.