Question
The product is
The correct answer is: ![](data:image/png;base64,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)
The pinacol-pinacolone rearrangement involves dehydration of diols through the formation of carbocation intermediate which rearranges to more stable compound. ![](data:image/png;base64,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)
Related Questions to study
Alloys of which metal are light and strong and are used in the manufacture of aeroplane parts?
Alloys of which metal are light and strong and are used in the manufacture of aeroplane parts?
The right order of the solubility of sulphates of alkaline earth metals in water is
The right order of the solubility of sulphates of alkaline earth metals in water is
If point O is the centre of a circle circumscribed about a triangle ABC. Then ![Error converting from MathML to accessible text.](data:image/png;base64,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)
If point O is the centre of a circle circumscribed about a triangle ABC. Then ![Error converting from MathML to accessible text.](data:image/png;base64,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)
Which pair of the following chlorides do not impart colour to the flame?
Which pair of the following chlorides do not impart colour to the flame?
If for
and
,then X is equal to
If for
and
,then X is equal to
The metal ion, that plays an important role in muscle contraction, is
The metal ion, that plays an important role in muscle contraction, is
Which one of the following order of stability is correct?
Which one of the following order of stability is correct?
If ABCD is a Rhombus whose diagonals cut at the origin O then ![OA with rightwards arrow on top plus OB with rightwards arrow on top plus OC with rightwards arrow on top plus OD with rightwards arrow on top equals](data:image/png;base64,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)
If ABCD is a Rhombus whose diagonals cut at the origin O then ![OA with rightwards arrow on top plus OB with rightwards arrow on top plus OC with rightwards arrow on top plus OD with rightwards arrow on top equals](data:image/png;base64,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)
Baryta water is:
Baryta water is:
Which sequence of reactions shows correct chemical relation between sodium and its compounds?
Which sequence of reactions shows correct chemical relation between sodium and its compounds?
Soda ash is chemically:
Soda ash is chemically: