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What is the oxidation number of carbon-atom in diamond?
The oxidation number of a carbon atom in diamond is 0, because carbon atoms in diamond have a formal charge of 0. Each carbon atom in diamond is bonded to four other carbon atoms, forming a tetrahedral structure, and there are no net charges on the molecule.
What is the oxidation number of carbon-atom in diamond and graphite?
In diamond, the oxidation number of a carbon atom is 0 because it is bonded to four other carbon atoms, resulting in a balanced charge. In graphite, the oxidation number of a carbon atom is also 0 for the same reason.
How many carbon atoms are there in a diamond?
There is no such thing as a "diamond molecule"; a diamond is just crystalized carbon atoms. In another sense, a diamond is one big, visible molecule. A one-carat diamond is one big molecule weighing 0.2g and having 10 sextillion atoms. Lots and lots of atoms!
How many covalent bonds are in a diamond lattice?
In a diamond lattice, each carbon atom forms four covalent bonds with its neighboring carbon atoms. Therefore, there are four covalent bonds in a diamond lattice structure.
Can diamond atoms be split?
Diamond atoms cannot be split using normal chemical reactions because they are held together by strong covalent bonds. To split diamond atoms, extremely high temperatures and pressures would be needed to overcome the bond strength.
What is the oxidation number of carbon-atom in diamond?
The oxidation number of a carbon atom in diamond is 0, because carbon atoms in diamond have a formal charge of 0. Each carbon atom in diamond is bonded to four other carbon atoms, forming a tetrahedral structure, and there are no net charges on the molecule.
On diamond how many enteis are there?
In diamond, there is one type of entity: the carbon atom. Each carbon atom is tetrahedrally coordinated to four other carbon atoms, forming a strong covalent bond structure that gives diamond its exceptional hardness and properties. This arrangement creates a crystalline lattice, which is characteristic of diamond's structure.
What is the resemblance of structure of Silicon Carbide to diamond?
both of these are bonded to C-atom.
Why diamond is colourless where as the content is carbon is black?
Some formations of carbon atom collections are black: the formation of carbon atoms for diamond is colourless.
What is hardest object diamond or platinum?
Diamond, Its atom structure formed by many carbon atoms in such a way makes it very strong indeed
Is diamond a atom or a molecule?
Diamond is made up of pure carbon. Here one carbon atom is attached to other four carbon atoms. So diamond should be called as molecule. Should be! If it is called as molecule, then it will be too large a molecule. It will be interesting to count the number of atoms in a big diamond. It will not be possible for the human brain to understand such a very high number.
Is C an element or atom?
the answer is atom because even if it is the last one an atom is the smallest
What is the oxidation number of carbon-atom in diamond and graphite?
In diamond, the oxidation number of a carbon atom is 0 because it is bonded to four other carbon atoms, resulting in a balanced charge. In graphite, the oxidation number of a carbon atom is also 0 for the same reason.
How many carbon atoms are there in a diamond?
There is no such thing as a "diamond molecule"; a diamond is just crystalized carbon atoms. In another sense, a diamond is one big, visible molecule. A one-carat diamond is one big molecule weighing 0.2g and having 10 sextillion atoms. Lots and lots of atoms!
How many covalent bonds are in a diamond lattice?
In a diamond lattice, each carbon atom forms four covalent bonds with its neighboring carbon atoms. Therefore, there are four covalent bonds in a diamond lattice structure.
Can diamond atoms be split?
Diamond atoms cannot be split using normal chemical reactions because they are held together by strong covalent bonds. To split diamond atoms, extremely high temperatures and pressures would be needed to overcome the bond strength.
What are three ways that a carbon atom can be arranged or bonded in a molecule?
Graphite, Diamond, and Buckminsterfullerene, if that's what you were looking for.
