For decades, Americans have taken for granted the United States person position in the development of new technologies. The innovations that resulted from research and development during World War II and afterwards were 36 to the prosperity of the nation in the second half of the 20th century. Those innovations, upon which virtually all aspects of 37 society now depend, were possible because the United States then 3 8 the world in mathematics and science education Today, however, despite increasing demand for workers with strong skills in mathematics and science,the 39 of degrees awarded in science, math, and engineering are decreasing The decline in degree production in what are called the STEM disciplines (science, technology engineering, and math seems to be 40 r elated to the comparatively weak performance by U.S schoolchildren on inte rn ational assessments of math and science. Many students entering college have weak skills in mathematics. According to the 2005 report of the Business- H igher Education For um, 22 percent of college freshmen must take remedial ( 补习的 )math 41 , and less than half of the students who plan to major in science or engineering _42 complete a major in those fields . The result has been a decrease in the number of American college graduates who have the skills. 43 i n mathematics, to power a workforce that can keep the country at the forefront ( 前沿 ) of innovation and maintain its standard of living. With the 44 performance of American students in math and science has come increased competition from students from other countries that have strongly supported education in these areas. Many more students earn 45 in the STM disciplines in developing countries than in the United States A) accelerating B)actually C)closely D) contemporary E) courses F)critical G) declining H) degrees I) especially J) future K) led L) met M) procedures N) pro portions O) spheres