Want this question answered?
genetics correlate with drug dependence
I think this is related... No two people on earth can have the same DNA (genetics) so they wont be the same although they will be simalar though it is possiable to distinguish brother from sister, mother from daughter etc.
True
Genetics is relevant to psychopathology because every aspect of human biology derives ultimately from genetics, and psychopathology is necessarily rooted in biology (even though it often has a cultural element as well). That said, there is still a lot that we don't know about human genetics - indeed, I would say that we are just beginning to understand human genetics - so no detailed genetic analysis is possible at present to explain the basis of psychopathology. So the relevance of genetics is more theoretical than practical, at present. But research continues.
Both sides of the family. The genetics of eye color are more complicated than previously thought. Color is determined by multiple genes. The genetics of eye color are so complex, that almost any parent-child combination of eye colors can occur. As for hair, the genetics for hair color are not yet firmly established. Almost anything is possible if it runs in the family.
Because the two are stylistically different.
Because the two are stylistically different.
genetics correlate with drug dependence
No. Nobody is perfect.
I think this is related... No two people on earth can have the same DNA (genetics) so they wont be the same although they will be simalar though it is possiable to distinguish brother from sister, mother from daughter etc.
This is not possible, but if it were, the result would be no difference in anything.
Punnett Square
genetics, and possible environmental factors.
Not possible, both are numbers.
no because it is not possible to cross a dragon with a human so if you believe that IS possible go ask a scientist IF it IS possible to do so.
It was to have the perfect beauty, to be as close to the gods as possible
It's possible but it depends are on your family's genetics.