Diamond is harder than graphite because each of its carbon atoms form four covalent bonds in a tetrahedral structure and also due to the presence of strong covalent bonds in it. … Therefore, diamond is hard but graphite is soft and slippery even though both have carbon present in them.
Why do diamond is very hard as compared to the graphite although both are allotropes of carbon explain?
While there are strong covalent bonds between carbon atoms in each layer, there are only weak forces between layers. This allows layers of carbon to slide over each other in graphite. … In this rigid network atoms cannot move. This explains why diamonds are so hard and have such a high melting point.
Why do diamond and graphite have different physical properties even though they are both composed only of the element carbon?
It’s because the carbon atoms are rearranged in a specific geometric shape that gives the diamond its properties. … Graphite however, is when the carbon atoms bond together in sheets – hexagonal-like lattice. Graphite is formed from the carbon atoms resulting from the metamorphism of minerals such as marble, quartz, etc.
Why is the hardness of diamond and graphite different?
In a diamond, the carbon atoms are arranged tetrahedrally. … This accounts for diamond’s hardness, extraordinary strength and durability and gives diamond a higher density than graphite (3.514 grams per cubic centimeter). Because of its tetrahedral structure, diamond also shows a great resistance to compression.
How can graphite and diamond be so different if they are both composed of pure carbon?
Graphite and Diamond are different because they have different structures. Both have Giant Covalent Structures, resulting in very high melting temperatures. However each carbon atom in Diamond has 4 covalent bonds with other Carbons, making it extremely strong and hard.
Why is a diamond hard?
Diamonds are made of carbon so they form as carbon atoms under a high temperature and pressure; they bond together to start growing crystals. … That’s why a diamond is such a hard material because you have each carbon atom participating in four of these very strong covalent bonds that form between carbon atoms.
Why is diamond clear and hard while graphite is soft?
Graphite is soft because it has weak inter molecular forces between its layers. Diamond is hard due to its giant covalent lattice and it has many strong covalent bonds.
How does diamond differ from graphite?
Graphite and diamond are two of the most interesting minerals. They are identical chemically – both are composed of carbon (C), but physically, they are very different. … Graphite is very soft and has a hardness of 1 to 2 on this scale. Diamonds are the hardest known natural substance and have a hardness of 10.
Why is diamond so hard chemistry?
The outermost shell of each carbon atom has four electrons. In diamond, these electrons are shared with four other carbon atoms to form very strong chemical bonds resulting in an extremely rigid tetrahedral crystal. It is this simple, tightly-bonded arrangement that makes diamond one of the hardest substances on Earth.
What are the differences between diamond and graphite?
Explain the difference in properties of diamond and graphite on the basis of their structures.
|1) It has a crystalline structure.||1) It has a layered structure.|
|2) It is made up of tetrahedral units.||2) It has a planar geometry.|
Why graphite is softer than diamond?
Graphite is a form of carbon in which the carbon atoms form covalent bonds with three other carbon atoms. … These layers can slide over each other, so graphite is much softer than diamond.
Why do graphite and diamond show different properties?
Answer: The differences in their properties are due to the way the carbon atoms are arranged in their structures, with the tetrahedral structure of diamond forming a hard substance, while the hexagonal structure of graphite forms a softer substance.
Why does diamond not conduct electricity but graphite does?
Graphite can conduct electricity because of the delocalised (free) electrons in its structure. … However, in diamond, all 4 outer electrons on each carbon atom are used in covalent bonding, so there are no delocalised electrons.