Modern medicine and evolution

Although doctors could fix a person if injured, it would not hurt if they knew how the body evolved. I believe that if doctors knew how the human evolved it would make their treatment better. If doctors knew how the human evolved they would have a better grasp on how the body evolved. So instead of just fixing the problem, they would be able to fully understand what the problem is, why it is a problem, and so forth. Its a little of a stretch, but maybe if doctors and other medical personal under stood how exactly the body evolved they might be able to find cures for some diseases that we find incurable.

bipedality and brain size

Bipedality is the ability for an mammal to walk on two feet instead of four. It was believed for the longest time that bipedality evolved after the increase in size of the brain. Bipedality may have evolved after small mutations rendered some mammals able to walk on two, which is easier and more efficient. Natural selection would then act upon these organisms looking upon them with favor. In return these bipedality mammals will be more successful than the mammals that walk on all four. After this evolved the animals would need a bigger brain mass to store how to use their new ability.

Y-chromosome Adam and mtDNA Eve

Chapter 1:
In Dawkins book, he warns us to stay away from two major misconceptions about evolution first that different people arose from different ancestors, he explains that all humans all arose from one common ancestor, and through adaptations, humans evolved to appear different. The second misconception is that we should not generalize where humans arose from because we do not know where they arose from.
Chapter 2:
Dawkins introduces two concepts to partially explain where humans might have evolved from. First he talks about mtDNA Eve, whom is believed to have lived in Africa. It is also believed that Eve gave rise to the female population, because the mtDNA is does not get shuffled so it would be identical to all females that are related. Dawkins also introduces Y-chromosomes which is supposed to explain the male side of the evolutionary story, because similarly to mtDNA it is not changed during development.

Evolution of Altruistic Behavior

The evolution of altruistic behavior has always been a puzzling question, especially when the benefits were directed towards unrelated individuals. How could such a thing evolve many wonder. The evolution of altruistic behavior could have evolve because it is quite helpful if everyone worked together even if they are not related, and more organisms working together gets the job done better and faster and everyone benefits if they all work together. Is like the prisoner's dilemma, in which the two prisoners have to work together to get the best benefit for the both of them.

Kin selection

Kin selection is a form of altruism, in which individuals in the group are related to some degree. One great example of kin selection is social insects, in which worker bees are sterile and can not reproduce and they actually help the queen bee with her offspring. This seems to but unselfish in every way imaginable, but there is still a little room for the selfish gene to show its face. In some cases of sterile castes the workers can sneak an egg or two of their own in or they could just be waiting for the queen to die so they can take her place.