Last, and off topic, if you truly like physics, don't let anyone talk you out of it. It's an amazing subject that I think has more potential than almost any other. If you don't mind me asking, why don't your parents want you going into it?
It is not easy to pursue a career in physics. It is not easy to get a job, not easy to earn money, and if I fail to get funds for my research then I'll have nothing. My parents are simply realists, you might say. However, if everyone shared their attitude, then the career of physics should have deteriorated to nothing by now; I'm wondering how other people's parents responded to their children's interest in physics, but I have yet to find someone I know that wanted to do a physics major in university.
If humans are biologically limited, then are they doomed to destroy each other? I suspect that a nuclear war will break out, when countries are fighting over the last bits of natural resources such as fresh water.
I'm a physics graduate student. ^_^
My parents basically have Confucius's view on careers:
Choose a job you love, and you will never have to work a day in your life.
-Confucius
It probably helps that I'm not a liberal arts major, so I'm still employable.
snip
I might be mistaken, but I think he's talking more about straight physics, as opposed to engineering.
OT, I don't think humans are necessarily selfish by nature. There are certain things that are considered good that come about logically in evolution.
For example, murder being unacceptable is beneficial to the survival of our species as a whole. If everyone murdered whenever it would be of benefit to themselves, our species wouldn't survive very long. You can come up with other reasons for why things like theft and lying are bad as well.
One way to look at it though is as a game theory problem, specifically the prisoner's dilemma (
http://en.wikipedia.org/wiki/Prisoner%27s_dilemma).
Two suspects are arrested by the police. The police have insufficient evidence for a conviction, and, having separated the prisoners, visit each of them to offer the same deal. If one testifies for the prosecution against the other (defects) and the other remains silent (cooperates), the defector goes free and the silent accomplice receives the full 10-year sentence. If both remain silent, both prisoners are sentenced to only six months in jail for a minor charge. If each betrays the other, each receives a five-year sentence. Each prisoner must choose to betray the other or to remain silent. Each one is assured that the other would not know about the betrayal before the end of the investigation. How should the prisoners act?
This can be summarized with the following choice table:
| Prisoner B Stays Silent | Prisoner B Betrays |
| Prisoner A Stays Silent | Each serves 6 months | Prisoner A: 10 years
Prisoner B: goes free |
| Prisoner A Betrays | Prisoner A: goes free
Prisoner B: 10 years | Each serves 5 years |
In this 'game' let's say there are only 2 different choices for strategy (this is actually not a unreasonable limitation to make), and they are:
1) Always betray- (ie be selfish) In this strategy you always choose to betray, in order to receive the minimum possible sentence (0).
2) Tit-for-Tat- An agent using this strategy will initially cooperate, then respond in kind to an opponent's previous action. If the opponent previously was cooperative, the agent is cooperative. If not, the agent is not. Additionally, some small percent (like 5) of the time, you will 'forgive' your opponent (choose cooperate even if they chose betray previously, which prevents loops).
Now let's say that we have a population composed entirely of one or the other. If the whole population is filled with 1), any departure from this strategy leads to me losing with respect to my peers (due to the initial choice of cooperation). On the other hand, if the population is filled with 2), then any departure from that strategy leads to a loss.
One could argue that since a population filled with 2) leads to a better average score than 1), that any species that survives will generally adopt this strategy, as the species does better as a whole.
