當(dāng)研究的重點(diǎn)被置于科學(xué)、教育或者其他領(lǐng)域中時(shí),最重要的問題就是要考慮如果研究獲得成功會(huì)有多少人的生活得以改善。
As our time and energy are both limited, it seems necessary for us to fix a schedule before we commence to achieve our aims. In the realm of science, technology,education, and many more others, researchers have to decide what job should be accomplished first. The question, however, is often proven too hard for a single researcher to find the answer, since the research and the consequence of it may bring more effects than a single person can imagine. As far as I am concerned, the best research schedule should be set according to both the potential benefits and the potential damages.
As the breakthroughs in various areas being made, we can measure the importance of them by inspecting how many people's lives have been or will be improved by the results. Most people agree that the most significant invention of last century is computer. People come to this conclusion because computer has largely transformed our lives and has made our work more efficient than ever before. As a result of the innovation of computer and the Internet also, the contemporary world is knitted in a web of information, and people all around the world can exchange ideas with each other using instant communications in the cyberspace. Computer is respected as one of the most wonderful inventions through the history, not due to its astonishing speed of calculation or its astounding space for storation, but due to its great impacts on people's lives and works. Other inventions, for example the nuclear weapon, do not receive the same kudos because they cannot bring us such great advantages but even troubles and bales. It seems convenient for us to decide the research priorities by this criterion.
Nevertheless, can we really predict the value of a research in this way? Unfortunately,it is hardly possible. Only if we could foresee things centuries after, could we correctly judge the potential number of people who will be benefited. Take the history of science development for example, when Rontgen accidentally discovered the X-ray, he and other people might only treat the new invention as something interesting and funny,since the new variety of light can go through different obstacles. Years later, however,people finally find X-ray's crucial role in the field of physic for it can help doctors to understand our diseases. Today, every one of us is clear about the profits X-ray has brought, but when the discovery was at its inchoate days or even before the discovery was made, could we probably predict its usage in our hospitals? If Rontgen set his research priority in the way discussed above, it is likely that the discovery of X-ray will date to a rather late period, or even today we would not know about a light which can penetrate into our bodies. Thus, the problem of deciding our schedule is more difficult than we have thought of.