Question

diamond is covalent yet it has high melting point explain

Answer 1

Diamond is covalent yet it has high melting point because its atoms are held together by strong covalent forces.

• All the carbon atoms in Diamond are said to have strong chemical bonds with the other four carbon atoms, thus enabling the optimal formation of tetrahedron throughout the crystal.
• Atoms of carbon, here are the sp3s combined, and the bond length of the carbon-carbon atom is equal. Thus, Diamond builds a three-dimensional network of strong bonds.

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Answer 2

Answer:

Carbon atoms are the purpose why diamond has an excessive melting factor in contrast to different covalent solids.

Explanation:

To understand the properties of diamonds, draw the structure of the atoms present in the diamond. Identify hybridization. Diamond, an allotrope of carbon, has a bond. Connecting carbon atoms helps to understand why diamonds have a high melting point.

Diamond is a stable shape of carbon detail with its atoms organized in a crystal lattice referred to as diamond cubic. At room temperature and pressure, carbon exists in every other stable shape referred to as graphite that's the solid shape chemically.

Although graphite is the solid shape, diamond nearly by no means converts to graphite shape. Diamond has the very best toughest and features the thermal conductivity of any material. This asset is used for reducing and sharpening tools.

Diamond is a covalent stable but has an excessive melting factor, particularly because of its interlinked structure. Diamond crystallises in a lattice structure, indicating the presence of sturdy covalent bonds.

Diamond has a feature $3-d$ community wherein one carbon is bonded to four carbon atoms i.e. having $sp^3$ hybridisation. This community among carbon atoms is the purpose why diamond has an excessive melting factor in contrast to different covalent solids.

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