Graphite has h.c.p arrangements of carbon atoms and the parallel planes are `3.35 Å` apart . Determine density of graphite :

The arrangement of carbon atoms in graphite is

Explain the arrangement of carbon atoms in graphite.

In which form are the carbon atoms in graphite arranged?

In which form are the carbon atoms in graphite arranged?

Carbon shows allotropy. The various allotropic forms of carbon can be broadly classified into 2 classes a) Crystalline form b) Amphorous form Diamond and Graphite are the 2 crystalline forms of carbon. In diamond, the carbon atoms are arranged tetrahedrally while in graphite, the carbon atoms are arranged inregular hexagons in flat parallel layers When diamond is heated at 1800 to 2000^(@)C in valency. It is converted into

Graphite consists of planes of carbon atoms. Between atoms in the planes there are only weak forces. What kind of elastic properties do you expect from graphite ?

Carbon shows allotropy. The various allotropic forms of carbon can be broadly classified into 2 classes a) Crystalline form b) Amphorous form Diamond and Graphite are the 2 crystalline forms of carbon. In diamond, the carbon atoms are arranged tetrahedrally while in graphite, the carbon atoms are arranged inregular hexagons in flat parallel layers In (CO_(3)^(2-)) , carbon atoms shows

Conidier following statements : I : In diamond, each carbon atom is linked tetrahedrally to four other carbon atoms by sp_(3) bonds. II : Graphite has planer hexagonal layers of carbon atoms held together by weak vander Walls forces III : Silicon exists only in diamond structure due to its tendency to form p_(p)-p_(p) bonds to itself. In this :