What if both carbon's have the same number of hydrogens, then which carbon gets "richer" in hydrogens?

If both carbon atoms in a molecule have the same number of hydrogens, then the distribution of hydrogens between the two carbons will depend on the specific molecule and its connectivity.

To determine which carbon gets "richer" in hydrogens, you can follow these steps:

1. Identify the carbon atoms in the molecule: Look for all carbon atoms present in the molecule. Carbon atoms are typically represented by the symbol "C" in chemical formulas.

2. Determine the number of hydrogens attached to each carbon: Count the number of hydrogen atoms bonded directly to each carbon atom in the molecule. Hydrogen atoms are denoted by the symbol "H" in chemical formulas.

3. Compare the hydrogen counts: If both carbon atoms have the same number of hydrogens attached to them, then it means the hydrogens are distributed equally between the two carbons. In this case, neither carbon is "richer" in hydrogens than the other.

However, if the carbons are part of a larger molecule with other atoms, such as oxygen or nitrogen, the electronegativity of these atoms may affect the distribution of hydrogens. Electronegative atoms tend to "pull" electrons towards themselves, which can result in an uneven distribution of hydrogens.

It's important to note that the distribution of hydrogens can also be influenced by the molecule's three-dimensional structure, as certain spatial arrangements may favor the attachment of more hydrogens to one carbon over the other.

In summary, to determine which carbon gets "richer" in hydrogens, you need to count the number of hydrogens attached to each carbon atom in the molecule and consider factors such as the presence of other electronegative atoms and the molecule's three-dimensional structure.