There are 5 chiral carbon atoms in norethynodred.
For a molecule with n chiral centers, there are a possible 2^n isomers that can be formed.
For a molecule with n chiral centers, there are a possible 2^n isomers that can be formed.
The number of chiral center of tetracycline is 5 .. there are 5 chiral carbons.If there is confusion about the 25=32 Remark, the previous writer was using the equation- 2 to the power of n= then the number of possible stereoisomers, where n is the number of stereogenic centers, hence 2 to the power of 5 is 32.
There is only 1 center - 1 chiral carbon and hence two optically active isomers.
Glucose is a Chiral molecule having 4 chiral carbons.
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I think glucose has 4 chiral centres four carbon atoms has four different compound/elements bonded to it.
No it doesnt have any....
fifteen.
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For a molecule with n chiral centers, there are a possible 2^n isomers that can be formed.
For a molecule with n chiral centers, there are a possible 2^n isomers that can be formed.
The 8 isomers of pentose are in the carbohydrate family and are characterized as simple sugars, or monosaccharide's. The asymmetric chiral centers generally refer to the presence of interaction with polarized light.
Isoleucine and Threonine
This is my understanding.... though I am no expert by any means... Aldopentoses have 3 chiral centers (assymetrical carbon atoms) which allows for 8 stereoisomers (4D and 4L) while ketopentoses have 2 chiral centers which makes 4 stereoisomers .
The number of chiral center of tetracycline is 5 .. there are 5 chiral carbons.If there is confusion about the 25=32 Remark, the previous writer was using the equation- 2 to the power of n= then the number of possible stereoisomers, where n is the number of stereogenic centers, hence 2 to the power of 5 is 32.