Testosterone, which is a steroidal hormone, has the following structure.
The total number of asymmetric carbon atom/s in testosterone is _____
Testosterone, which is a steroidal hormone, has the following structure.
The total number of asymmetric carbon atom/s in testosterone is _____
Correct answer:6
Standard Method
Given: Testosterone, which is a steroidal hormone, has the following structure.
Find: The total number of asymmetric carbon atom/s in testosterone.
An asymmetric carbon atom (chiral center) is a carbon atom that is bonded to four different groups. Looking at the structure, we can identify the carbon atoms that have four different groups attached. These are chiral centers.
Therefore, there are a total of asymmetric carbon atoms in testosterone.
Counting Chiral Centres
Given: We need to count the asymmetric carbon atoms in testosterone.
Find: Number of chiral centres.
Use the definition: a carbon atom is asymmetric if it is attached to four different groups. In the testosterone skeleton, the ring-junction and substituted bridge carbons satisfy this condition, while carbons such as those in or do not.
From the identified centres in the structure, the total count is .
So, the required numerical answer is .
Counting carbon atoms of or as asymmetric centres is incorrect because carbons are not bonded to four different groups. Count only tetrahedral carbons with four different attachments.
Missing ring-junction carbons is a common error because they are shared by two rings and often become chiral. Check each bridgehead or fused-ring junction carefully.
Treating two ring paths as identical when they are actually different leads to undercounting. For a suspected chiral carbon, compare all four attached groups in the full molecular environment, not just the immediate atoms.
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