Pursuing STEM and Related Careers: The Role of Math Self-Efficacy and High School Math and Science Courses in Building Momentum
Education policy over the past decade has often focused on increasing participation in science, technology, engineering, and mathematics (STEM) fields. A number of studies indicate that the STEM pipeline "leaks," as individuals who pursue STEM college majors do not...
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Florida State University
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ndltd-fsu.edu-oai-fsu.digital.flvc.org-fsu_4056222020-06-24T03:07:29Z Pursuing STEM and Related Careers: The Role of Math Self-Efficacy and High School Math and Science Courses in Building Momentum Ramp, Laura (authoraut) Iatarola, Patrice (professor directing dissertation) Ueno, Koji (university representative) Preston, Courtney (committee member) Rutledge, Stacy A. (committee member) Perez-Felkner, Lara (committee member) Florida State University (degree granting institution) College of Education (degree granting college) Department of Educational Leadership and Policy Studies (degree granting departmentdgg) Text text Florida State University Florida State University English eng 1 online resource (218 pages) computer application/pdf Education policy over the past decade has often focused on increasing participation in science, technology, engineering, and mathematics (STEM) fields. A number of studies indicate that the STEM pipeline "leaks," as individuals who pursue STEM college majors do not follow through with occupations in these fields. Using data from the Education Longitudinal Study (ELS) of 2002 and from the General Social Surveys (GSS) for 2010, 2012, and 2014, I expand the concept of STEM momentum to explore how momentum builds in high school and carries into postsecondary enrollment and occupations. In addition, with the GSS data, participants are grouped by age to explore any patterns that may emerge in aligning outcomes with shifts in the labor market and in policy. Moreover, the occupations included as STEM and applied STEM are expanded to include occupations in these fields that require any level of education or certification above a high school diploma. I find that math self-efficacy and high school math and science coursework completed matter for building STEM momentum. This momentum carries into postsecondary enrollment and college major selection. The momentum built from math self-efficacy and high school math and science coursework completed carries indirectly into occupation through college major. In terms of labor market and policy shifts, I find that there appears to be increases in participation in STEM fields by females and different racial groups, although, gaps remain. I find that the STEM pipeline not only continues to "leak" for STEM fields, but it also "leaks" for applied STEM fields. A Dissertation submitted to the Department of Educational Leadership and Policy Studies in partial fulfillment of the Doctor of Philosophy. Fall Semester 2016. October 31, 2016. math, math self-efficacy, science, STEM, STEM momentum Includes bibliographical references. Patrice A. Iatarola, Professor Directing Dissertation; Koji Ueno, University Representative; Courtney Preston, Committee Member; Stacey A. Rutledge, Committee Member; Lara Perez-Felkner, Committee Member. Education FSU_FA2016_Ramp_fsu_0071E_13508 http://purl.flvc.org/fsu/fd/FSU_FA2016_Ramp_fsu_0071E_13508 This Item is protected by copyright and/or related rights. You are free to use this Item in any way that is permitted by the copyright and related rights legislation that applies to your use. For other uses you need to obtain permission from the rights-holder(s). The copyright in theses and dissertations completed at Florida State University is held by the students who author them. http://diginole.lib.fsu.edu/islandora/object/fsu%3A405622/datastream/TN/view/Pursuing%20STEM%20and%20Related%20Careers.jpg |
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English English |
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Others
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Education |
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Education Pursuing STEM and Related Careers: The Role of Math Self-Efficacy and High School Math and Science Courses in Building Momentum |
| description |
Education policy over the past decade has often focused on increasing participation in science, technology, engineering, and
mathematics (STEM) fields. A number of studies indicate that the STEM pipeline "leaks," as individuals who pursue STEM college majors do
not follow through with occupations in these fields. Using data from the Education Longitudinal Study (ELS) of 2002 and from the General
Social Surveys (GSS) for 2010, 2012, and 2014, I expand the concept of STEM momentum to explore how momentum builds in high school and
carries into postsecondary enrollment and occupations. In addition, with the GSS data, participants are grouped by age to explore any
patterns that may emerge in aligning outcomes with shifts in the labor market and in policy. Moreover, the occupations included as STEM
and applied STEM are expanded to include occupations in these fields that require any level of education or certification above a high
school diploma. I find that math self-efficacy and high school math and science coursework completed matter for building STEM momentum.
This momentum carries into postsecondary enrollment and college major selection. The momentum built from math self-efficacy and high
school math and science coursework completed carries indirectly into occupation through college major. In terms of labor market and policy
shifts, I find that there appears to be increases in participation in STEM fields by females and different racial groups, although, gaps
remain. I find that the STEM pipeline not only continues to "leak" for STEM fields, but it also "leaks" for applied STEM
fields. === A Dissertation submitted to the Department of Educational Leadership and Policy Studies in partial
fulfillment of the Doctor of Philosophy. === Fall Semester 2016. === October 31, 2016. === math, math self-efficacy, science, STEM, STEM momentum === Includes bibliographical references. === Patrice A. Iatarola, Professor Directing Dissertation; Koji Ueno, University Representative;
Courtney Preston, Committee Member; Stacey A. Rutledge, Committee Member; Lara Perez-Felkner, Committee Member. |
| author2 |
Ramp, Laura (authoraut) |
| author_facet |
Ramp, Laura (authoraut) |
| title |
Pursuing STEM and Related Careers: The Role of Math Self-Efficacy and High School Math and Science Courses in Building Momentum |
| title_short |
Pursuing STEM and Related Careers: The Role of Math Self-Efficacy and High School Math and Science Courses in Building Momentum |
| title_full |
Pursuing STEM and Related Careers: The Role of Math Self-Efficacy and High School Math and Science Courses in Building Momentum |
| title_fullStr |
Pursuing STEM and Related Careers: The Role of Math Self-Efficacy and High School Math and Science Courses in Building Momentum |
| title_full_unstemmed |
Pursuing STEM and Related Careers: The Role of Math Self-Efficacy and High School Math and Science Courses in Building Momentum |
| title_sort |
pursuing stem and related careers: the role of math self-efficacy and high school math and science courses in building momentum |
| publisher |
Florida State University |
| url |
http://purl.flvc.org/fsu/fd/FSU_FA2016_Ramp_fsu_0071E_13508 |
| _version_ |
1719323320169529344 |