The question assumes that the egg is passive, accepting the first sperm to arrive at the egg. The father can contribute one of two types of chromosome (an X or a Y), but the mother can contribute only one (an X). Two X's make a female; an X and a Y make a male. If both parents contribute X's, they will have a female child. If the father contributes a Y, they will have a male child. Some recent evidence indicates that the underlying assumption is wrong. See the Wikipedia article on "Maternal influence on sex determination."
The sperm from the father can supply either an X-bearing or a Y-bearing chromosome. The egg from the mother can only supply an X-bearing chromosome. An XY combination produces a boy baby. An XX combination produces a girl baby. It might seem that the father therefore determines the sex of the baby, but some recent evidence suggests that the mother can select either an X-bearing or a Y-bearing sperm. See the Wikipedia article on "Maternal influence on sex determination."
The mother of piglets (of any sex) is a "Sow".
the man
Sex your mom first then when your mother have a baby you can get it to your baby
mother and father are sex the baby is the bunga
mother and father are sex the baby is the bunga
There's no proven link between the age of the mother and the sex of the baby. You're looking at basically a 50/50 chance anyhow.
In general, the mother contributes an (X) chromosome and the father can contribute either and (X) OR (Y). Therefore, X/X = GIRL and X/Y = BOY. So, the father is ultimately controlling the gender of a baby.
No. The gender of the baby is determined by the dominant genes in the males sperm.
You hack the game, and make baby. Because there isn't.
No. Like most mammals, the mother has sex with a male guinea pig.
* Having unprotected sex * Blood transfusions * When a baby is in mother's womb
The mother and father both give a normal baby 23 chromosomes. This is because, a normal human has 46 chromosomes in all cells, except sex cells. So, a human receives half from the mother and half from the father thus 23 from each.