Chemistry
Chemistry
10th Edition
ISBN: 9781305957404
Author: Steven S. Zumdahl, Susan A. Zumdahl, Donald J. DeCoste
Publisher: Cengage Learning
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**Question: Identify the type of functional group change that interconverts testosterone and androsterone.**

- Testosterone can be converted to androsterone by reduction of the ketone group and the double bond in the first ring, and by oxidation of the hydroxyl group in the five-membered ring.

- Testosterone can be converted to androsterone by polymerization of the ketone group and the double bond in the first ring.

- Testosterone can be converted to androsterone by dehydration of the hydroxyl group in the five-membered ring.

- Testosterone can be converted to androsterone by oxidation of the ketone group and the double bond in the first ring, and by reduction of the hydroxyl group in the five-membered ring.

**Options:**

1. Reduction of the ketone group and double bond in the first ring, oxidation of the hydroxyl group.
2. Polymerization of the ketone group and double bond in the first ring.
3. Dehydration of the hydroxyl group.
4. Oxidation of the ketone group and double bond, reduction of the hydroxyl group.

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Transcribed Image Text:**Question: Identify the type of functional group change that interconverts testosterone and androsterone.** - Testosterone can be converted to androsterone by reduction of the ketone group and the double bond in the first ring, and by oxidation of the hydroxyl group in the five-membered ring. - Testosterone can be converted to androsterone by polymerization of the ketone group and the double bond in the first ring. - Testosterone can be converted to androsterone by dehydration of the hydroxyl group in the five-membered ring. - Testosterone can be converted to androsterone by oxidation of the ketone group and the double bond in the first ring, and by reduction of the hydroxyl group in the five-membered ring. **Options:** 1. Reduction of the ketone group and double bond in the first ring, oxidation of the hydroxyl group. 2. Polymerization of the ketone group and double bond in the first ring. 3. Dehydration of the hydroxyl group. 4. Oxidation of the ketone group and double bond, reduction of the hydroxyl group. **Actions:** - **Submit**: Click this button to submit your answer. - **Request Answer**: Click this option to request an answer. There are no graphs or diagrams associated with this text.
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