53. The following appeared as part of an editorial in a weekly newsmagazine. “Historically, most of this country’s engineers have come from our universities. recently, however, our university-age population has begun to shrink, and decreasing enrollments in our high schools clearly show that this 0drop in numbers will continue throughout the remainder of the decade. Consequently, our nation will soon be facing a shortage of trained engineers. If we are to remain economically competitive in the world marketplace, then, we must increase funding for education—and quickly.” Discuss how well reasoned... etc.
An editorial in a weekly news magazine warns that we must quickly increase funding for education in order to remain economically competitive in the world marketplace. The line of reasoning is that the nation will soon face a shortage of engineers because engineers have come from universities, and that our university-age population is shrinking. Moreover, decreasing enrollments in high schools clearly show that this 0drop in university-age students will continue throughout the decade. The author’s argument is not convincing because it is based on several questionable assumptions. First, the author assumes that because our university-age population is shrinking, university enrollments will likewise shrink. But even if the number of university-age students is 0dropping, it is possible that a greater proportion of those students will enter universities. If this percentage were sufficiently large, university enrollments could remain relatively stable. Moreover, even if overall university enrollments did 0drop, we must further assume that the number of engineering students would likewise 0drop. However, decreases in overall enrollments do no necessarily result in proportional enrollment decreases in each field of study. If demand for engineers were high, then a larger percentage of university students might study to become engineers, in which case engineering enrollments could increase or remain constant, while those in other major fields of study would 0drop disproportionately. An additional assumption is that economic success in the world marketplace depends on the number of engineers produced by our universities. This assumption is simplistic. Professionals in other fields—such as agriculture, banking, and business—may contribute equally to our global success. The author does not explain why the predicted shortage of engineers is more critical than shortages in other fields that might result from shrinking university enrollments. Nor does the author demonstrate that providing more funds for education will correct the predicted shortage of engineers. Even if all of the previous assumptions are accepted, no connection between increased funding and the desired enrollment increase has been established. In conclusion, the author has failed to make a convincing case for increased funding for education. Before we accept the conclusion, the author must provide evidence that we face a critical shortage of engineers, and that increased funding will have direct bearing on correcting this shortage. As it stands, both these claims rest on unwarranted assumptions.