Andresse St. Rose, Christianne Corbett, and Catherine Hill, are actively involved in the field of female studies in education and researchers for The American Association of University Women. In their 2010 book titled Why so Few? Women in Science, Technology, Engineering, and Mathematics, the first chapter is the book’s namesake and contains a wide depth of information, from statistics regarding a smaller female presence in STEM careers, differences across gender in students pursuing STEM related AP courses, and a comparison of the gender divide in earlier years with the present time.
The authors discuss how “girls and boys tend to have different cognitive strengths and weaknesses.” Specifically, girls excel at tasks relying on verbal and
All though women in STEM face many challenges as a whole, a question being posed in this study is whether or not women in math and physics intensive studies face unique obstacles. Underrepresentation in STEM seems a stubborn fact of the matter, however, it is not even across the board. The number of women present in the life sciences (sciences such as biology, environmental studies, health care, etc.), both at the academic and professional level, is much higher than the number of women present in fields that focus heavily on math, physics, and engineering. More and more women are choosing to pursue post-secondary education and enter the specialized workforce; in 2010 the AAUW found “Women currently earn over half of all doctoral degrees
51 percent of the United States is female but only 34.4 percent of doctors are women. While 90.4 percent of nurses are female (“Women in Medicine”; “Male Nurses Becoming”), the women who do become doctors earn an astounding 25 percent less than their male counterparts (Groves). These staggering figures are only a single piece in the larger overall lack of women in STEM, or science, technology, engineering, and mathematics, which has remained prevalent since the beginning of these fields. Although women are underrepresented in these STEM fields, this is not due to ineptitude, but instead it is a result of the force of societal stereotypes coupled with their wider range of abilities. The recent increase in women’s association with STEM seems
In a speech in February 2013 President Barak Obama said, “One of the things that I really strongly believe in is that we need to have more girls interested in math, science, and engineering. We’ve got half the population that is way underrepresented in those fields and that means that we’ve got a whole bunch of talent…not being encouraged the way they need to.” It been three years since President Obama has made that statement and the underrepresentation of women in science, technology, engineering and math as known as STEM majors is still a big problem today. The STEM workforce is crucial to Americas global competitiveness and groundbreaking capability. The people who work in the STEM field make up nearly half of the United
While this bill undoubtedly aligned with the mission and purpose of women’s colleges, there remains an unbalanced amount of representation of women in STEM programs and careers. “Globally, women remain particularly behind in participation at elite institutions and in traditional ‘male’ fields of study including science, technology, engineering, and mathematics, or STEM” (Renn, 2014, p. 3). While the very existence of women’s colleges asserts their right to belong within realms of higher education, the work towards equity and inclusion must take place in all facets of life. “Even where women outnumber men in undergraduate enrollments and enjoy full access to higher education, women’s institutions act symbolically to remind society that in many other domains of public and private life, gender equality remains elusive” (Renn, 2014, p. 125).
Slaby and Frey also found that boys tend to reach gender consistency before girls. This difference can't be explained by Kohlberg, since the rate of cognitive maturation is the same for both sexes. This suggests that other factors, apart from cognitive changes, must be taken into account when explaining gender
This report navigates the current state of STEM demographic in the country. It examines the reasons why there are less females undertaking STEM majors and gives recommendations on the problems. A brief history on STEM is outlined and the discussion follows with in depth analysis on the subject. STEM is a very critical education discipline with an importance in the economy of the country. Much as it is important, few students choose a career path in STEM. Although, there are more than 50% female students in Colleges and Universities, 12% take STEM related course. Why is this? This report is a compilation of empirical data collected in journals on the same subject explaining
During this day and age women in STEM is a very tough career. One question we bring to mind is does a female student having a female science teach motivate them to fill in those shoes? The answer to me is yes because women are starting to get rid of that stereotype about how they can’t feed off each other. Especially if the girl’s mom was a science teacher that would help a lot because women tend to look at their mother’s footsteps first. Also the pioneer’s women in STEM need to be brought upon more in history class. In order to get more women into the Science Technology Engineering and Mathematics field, women and young girls need these type of people to be brought upon in order to spark inspiration?.
Women in STEM are greatly underrepresented. STEM usually refers to an educational curriculum. Usually the curriculum focuses on science, engineering, technology, and math. The percentage of women in the STEM workforce has risen from seven percent in the seventies to twenty six percent in 2011. (U.S Department of Commerce)
Women remain an underrepresented minority in science, technology, engineering, and mathematics classes and careers. A concerning disparity emerges between girls that express interest in a STEM field, those who major in them, those who continue into the field, and those who stay in their career. When the National Science Foundation conducted a survey of fourth graders, they found that 66% of girls said they liked
Today’s college students have the opportunity and freedom to choose their major and their career path. Many factors influence the decision of a college student’s career paths including background, general interests, personal strengths, time commitment, and job outlook. Although many important decisions are made in college, one of the most important is the choice of major and career track. Out of hundreds of majors the science and engineering fields are under-represented by women. Although the numbers of women in science technology, engineering, and mathematics, STEM, majors has been increasing in the past years, women still are in the minority in the STEM fields. In her study, Lona Whitmarsh
Education is a huge factor affecting women's job placement. From a young age, gender role expectations are taught to students through books, televisions, advertisements, and adult social interactions (Etaugh & Liss 129-130). These gender role expectations are extremely institutionalized but currently, women have made strides to have a greater representation at the college level. The percentage of women (68%) between the ages of 18 to 24 enrolled in college, exceeds that of men, which is 66% since 1990 (Parrillo 441). Even amongst minority groups, women have a larger presence on college campuses. Even though women are not the minority in college, they are still minorities in the science majors and overrepresented in majors required for more
Traditionally, men take on the manufacturing, engineering, science occupations in society. Since the 1970’s women’s representation in science, engineering, mathematics, and technology, a group of subjects known as STEM, occupations has increased; but younger girls, under 40, remain underrepresented in these occupations (Census). Furthermore, within the group of few but strong females a part of STEM lies a huge discrepancy between employment of whites and Asians, compared to Africans, Hispanics, and native Americans. Although it is hard to identify the reason for the limited amount of girls in these subject areas, some specialist speculate lack of girls is due to stereotyping threat, stigmas of females lacking the intelligence to comprehend
Industry , government, and academic leaders argue that americans should make the science, technology, engineering and mathematical fields (STEM) more accessible. “They have high-quality, knowledge-intensive jobs that lead to discovery and new technology,” improving the U.S. economy and standard of living;(Lavender 1). One focus area for increasing the STEM workforce has been to reduce disparities in STEM employment by sex, race, and Hispanic origin. Actually, women, Blacks, and Hispanics have been underrepresented in the STEM employment. Some researchers find that women, Blacks, and Hispanics are less likely to be in a science or engineering major at the start of their college experience, and less likely to remain in these majors by its conclusion.
areas of science, technology, engineering, and mathematics employers are not getting enough women (Pozniak). High school girls only represent 17 percent of computer science Advance Placement (AP) test takers (O'Shea). The most significant group of minorities who are behind in earning computer technology degrees and working in science and mathematical professions are women. “Historically, women’s low representation in science and engineering was said to be due in large part of their lack of ability, interest, or both” (Horning 30). However, this is no longer a true fact according to Ward. Some suggestions to increasing the amount of women in sciences include introducing already present women faculty as mentors. Over the last three decades,
In Gurian, Stevens and King’s research, it was found that not only is the development of the brain different between boys and girls but there are also substantial differences in how they use their brains (2008b):