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Directions: Click the "Begin" button below to access an interactive drag and drop version of this graphics, which will help reinforce the concepts you have been studying.
A reversible equation depicts the conversion of an alkyne molecule into an alkane molecule through an alkene molecule as an intermediate compound. The reactant that has SMILES string of C#C reacts in the presence of hydrogen molecule, H 2, Lindlar’s catalyst or sodium atom, Na and ammonia molecule, N H 3 to yield an intermediate compound. The structure of the intermediate compound has a SMILES string of C=C. The intermediate product further reacts in the presence of hydrogen molecule, H 2 and platinum metal, P t to yield an alkane molecule as the final product that has a SMILES string of CC. The final product alkyne formed reacts (see chapter 10) back to form the same intermediate compound, which is further reacts in the presence of bromine molecule, B r 2 and carbon tetrachloride molecule, C C l 4 in the first step; X S sodium amide, N a N H 2 in the second step and water molecule, H 2 O in the third step to yield back the same reactant alkane molecule.
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Directions: Click the "Next" button below to access an interactive drag and drop version of this graphic, which will help reinforce the concepts you have been studying.

A reversible equation depicts the conversion of an alkyne molecule into an alkane molecule through an alkene molecule as an intermediate compound. The reactant that has SMILES string of C#C reacts in the presence of hydrogen molecule, H 2, Lindlar’s catalyst or sodium atom, Na and ammonia molecule, N H 3 to yield an intermediate compound. The structure of the intermediate compound has a SMILES string of C=C. The intermediate product further reacts in the presence of hydrogen molecule, H 2 and platinum metal, P t to yield an alkane molecule as the final product that has a SMILES string of CC. The final product alkyne formed reacts (see chapter 10) back to form the same intermediate compound, which is further reacts in the presence of bromine molecule, B r 2 and carbon tetrachloride molecule, C C l 4 in the first step; X S sodium amide, N a N H 2 in the second step and water molecule, H 2 O in the third step to yield back the same reactant alkane molecule.
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