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The given reaction is
An element can exist in 2 or more different forms which have totally different chemical and physical properties. They are known an allotropes.
Diamond and Graphite are allotropic forms of carbon. In the given reaction, diamond is changing to graphite and we have to find out the standard free energy of this reaction. This will help us to find out whether this reaction is spontaneous at 298 K or not.
The following data is needed for calculations which is taken from standard reference table.
Step 1: Find ΔH⁰ rxn for the given reaction.
The formula to calculate ΔH⁰ rxn is given below.
We have graphite on product side and diamond on reactant side.
Therefore,
Let us plug in the values given above.
ΔH⁰ rxn for the given reaction is -1.895 kJ/mol
Step 2 : Find ΔS⁰ rxn for the given reaction.
The formula to calculate ΔS⁰ rxn is
Let us convert this to kJ.
ΔS⁰ rxn for the given reaction is 3.403 x 10⁻³ kJ/mol.K
Step 3: Find standard free energy ΔG⁰ rxn.
ΔG⁰ rxn for the given reaction is calculated as
We have T = 298 K. Let us plug in the calculated values of ΔH⁰ rxn and ΔS⁰ rxn.
The standard free energy change for the given reaction is -2.909 kJ/mol
The negative value of delta G⁰ suggests that the given reaction is spontaneous at room temperature. That means diamond will slowly convert to graphite. The speed of this reaction is extremely slow, but yet the reaction is taking place. So over a period of time diamond will become graphite.
Therefore "Diamond is forever" is not true as it is going to get converted to graphite.
The carbon atom is unique among elements in its tendency to form extensive networks of covalent bonds not only with other elements but also with itself. ... Moreover, of all the elements in the second row, carbon has the maximum number of outer shell electrons (four) capable of forming covalent bonds.
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