C2H6->C2H4->C2H5OH->C4H6

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The chemical reactions involved in the transformation from C2H6 (ethane) to C2H4 (ethylene) to C2H5OH (ethanol) to C4H6 are as follows:

C2H6 (ethane) can be converted to C2H4 (ethylene) through a process called dehydrogenation. This reaction involves the removal of hydrogen atoms from ethane to form a double bond between the two carbon atoms, resulting in ethylene.

C2H4 (ethylene) can then undergo hydration to form C2H5OH (ethanol). This reaction involves the addition of water to the double bond of ethylene, resulting in the formation of ethanol.

Finally, C2H5OH (ethanol) can undergo dehydration to form C4H6. Dehydration of ethanol involves the removal of a water molecule from ethanol, resulting in the formation of butadiene.

Overall, the conversion from C2H6 to C4H6 involves a series of chemical reactions including dehydrogenation, hydration, and dehydration.