This study examines the migration patterns of over 4 million university graduates in the United States from 2003 to 2012 using data from LinkedIn. Specifically, it analyzes the percentage of graduates who stayed in the metropolitan area of their university after graduation ("stay rate") and how this rate varies over time and between universities. The study explores how university characteristics like academic ranking, type, student population, tuition, and location affect stay rates. It also controls for metropolitan characteristics like population size and income levels. Previous literature on college-to-work migration has focused on individual attributes and regional economic factors but paid little attention to the role of universities. This study aims to help fill that gap and provide new insights using a large dataset from social media.
TWO DECADES OF RESEARCH ON EARLY CAREER FACULTIES (ECFs): A BIBLIOMETRIC ANAL...Nader Ale Ebrahim
Early Career Faculties (ECFs) are an important demographic of university faculty population shaping the future of the institution and higher education, despite the challenges they face as new academics. Analysis of scholarly output on ECFs offers useful data to inform and aid both national policy formulations and institutional planning decisions especially in ECFs’ support and development. Peer-reviewed high impact journals and academic databases provide highly valid and reliable sources of data and information on ECFs. This study examines the trend of ECFs research over two decades comparing scholarly output and research impact across global regions, in Web of Science and Scopus Elsevier. The bibliometric analysis highlights key topics of research and publications related to ECFs and identify the regions and countries most actively research on the topic. The trend of research on ECFs has been found to increase exponentially beginning the 1990s worldwide, mostly from western institutions (76%). Publications after the year 2012 focused more on issues related to ECFs’ preparation towards life in academia, their motivation, and challenges, the support structure for ECFs and strategies to adapt to life as faculty members. Such bibliometric analysis findings can be a useful reference for policy formulation within national or regional systems of higher education, and institutional strategic planning.
Relationship among Economic Growth, Internet Usage and Publication Productivi...University of Malaya
Relationship among Economic Growth, Internet Usage and Publication Productivity: Comparison among ASEAN and World’s Best Countries
Hossein Gholizadeh, Hadi Salehi, Mohamed Amin Embi, Mahmoud Danaee, Seyed Mohammad Motahar, Nader Ale Ebrahim, Farid Habibi Tanha, Noor Azuan Abu Osman
Abstract
Publication productivity, as measured by the number of papers, has been regarded as one of the main indicators of reputation of countries and institutions. Nevertheless, the relationship among research publications, economic growth and World Wide Web in ASEAN countries is still unclear. The main intention of this study was to identify publication productivity among ASEAN and the world’s top ten countries in the last 16 years (1996-2011). This study also aimed at finding the relationship among publication, gross domestic product (GDP) and internet usage. Furthermore, the publication trend in the 10 first Malaysian universities was evaluated for the same periods. Scopus database was used to find the overall documents, overall citations, citations per document and international collaboration from 1996 to 2011 for each country. The World Bank database (World Data Bank) was used to collect the data for GDP and the number of internet users. Moreover, to evaluate 10 top Malaysian universities, the number of published articles, conferences, reviews, and letters for the same periods was collected. The results of this study showed significant differences among ASEAN and top 10 countries regarding publication productivity. Moreover, a positive and significant relationship was observed between indices, GDP and internet usage for these countries. Surprisingly, international collaboration had a significant and negative relationship with economic growth. Malaysia had fewer citations per document (7.64) and international collaboration (36.9%) among ASEAN countries. In conclusion, international collaboration between academic institutes and researchers is influenced by economic growth and access to internet in the countries. Furthermore, publication trends in ASEAN countries are promising. However, policy makers and science managers should try to find different ways to increase the quality of the research publication and to raise citation per document.
Full Text: PDF DOI: 10.5539/mas.v8n2p160
Presentación de la conferencia de Daniel Denecke, Director of Best Practices of Council of Graduate Schools, en el Seminario: "La movilidad de investigadores entre EEUU y Europa", organizado por la Cátedra UNESCO de Gestión y Política Universitaria
Washington's education system ranks low nationally in spending per student. This is forcing businesses to import highly educated employees and is contributing to poor student performance. Only 16 out of 100 Washington students who enter college complete a degree within 6 years. Due to budget cuts, the University of Washington has lost teaching positions and offers fewer courses, potentially hurting students. Improving education is seen as important to the state's economic future.
This document provides the agenda and background materials for a statewide conference titled "Vision Project 'Big Three' Conference" being held on February 27, 2015. The conference will focus on advancing knowledge around strategies to increase college completion rates, close achievement gaps, and boost college participation among underserved groups. Campus delegations from various Massachusetts public colleges will participate in working sessions in the morning and afternoon focused on these three topics. They will discuss effective strategies currently being implemented and ways the Department of Higher Education can provide support moving forward.
In our third annual Vision Project Report, Degrees of Urgency, we highlight the "Big Three" Completion Plan to increase the number of students graduating with degrees and certificates.
For more, visit www.mass.edu/visionproject
Increasing university publication and citation rateNader Ale Ebrahim
Despite the vital role of paper publication and citation in higher education institutions (HEIs), literature on publication exercises is relatively scarce. There are a number of factors which influence the rate of university publications and citations. Accordingly, with a focus on policy perspectives, this paper discusses publication exercises by addressing the factors that can increase or decrease the rate of publication and citation in HEIs. The investigated zones are divided into two macro and micro levels, in which macro level deals with global policy and micro level is related to local and university policies. The effective factors and their relevant criteria are traced in all the aforementioned policies.
The Vision Project is the strategic initiative through which the Massachusetts Public Higher Education System as come together to focus on producing the best-educated citizenry and workforce in the nation by achieving national leadership on seven key outcomes, including Research and Economic Activity, meaning the research activity and resulting economic impact by the five campuses of the state's public research university, the University of Massachusetts. This presentation gives a preview of data showing where Massachusetts stands in these outcomes at the outset of the Vision Project. More information at www.mass.edu/visionproject. Original presentation date: May 3, 2011
TWO DECADES OF RESEARCH ON EARLY CAREER FACULTIES (ECFs): A BIBLIOMETRIC ANAL...Nader Ale Ebrahim
Early Career Faculties (ECFs) are an important demographic of university faculty population shaping the future of the institution and higher education, despite the challenges they face as new academics. Analysis of scholarly output on ECFs offers useful data to inform and aid both national policy formulations and institutional planning decisions especially in ECFs’ support and development. Peer-reviewed high impact journals and academic databases provide highly valid and reliable sources of data and information on ECFs. This study examines the trend of ECFs research over two decades comparing scholarly output and research impact across global regions, in Web of Science and Scopus Elsevier. The bibliometric analysis highlights key topics of research and publications related to ECFs and identify the regions and countries most actively research on the topic. The trend of research on ECFs has been found to increase exponentially beginning the 1990s worldwide, mostly from western institutions (76%). Publications after the year 2012 focused more on issues related to ECFs’ preparation towards life in academia, their motivation, and challenges, the support structure for ECFs and strategies to adapt to life as faculty members. Such bibliometric analysis findings can be a useful reference for policy formulation within national or regional systems of higher education, and institutional strategic planning.
Relationship among Economic Growth, Internet Usage and Publication Productivi...University of Malaya
Relationship among Economic Growth, Internet Usage and Publication Productivity: Comparison among ASEAN and World’s Best Countries
Hossein Gholizadeh, Hadi Salehi, Mohamed Amin Embi, Mahmoud Danaee, Seyed Mohammad Motahar, Nader Ale Ebrahim, Farid Habibi Tanha, Noor Azuan Abu Osman
Abstract
Publication productivity, as measured by the number of papers, has been regarded as one of the main indicators of reputation of countries and institutions. Nevertheless, the relationship among research publications, economic growth and World Wide Web in ASEAN countries is still unclear. The main intention of this study was to identify publication productivity among ASEAN and the world’s top ten countries in the last 16 years (1996-2011). This study also aimed at finding the relationship among publication, gross domestic product (GDP) and internet usage. Furthermore, the publication trend in the 10 first Malaysian universities was evaluated for the same periods. Scopus database was used to find the overall documents, overall citations, citations per document and international collaboration from 1996 to 2011 for each country. The World Bank database (World Data Bank) was used to collect the data for GDP and the number of internet users. Moreover, to evaluate 10 top Malaysian universities, the number of published articles, conferences, reviews, and letters for the same periods was collected. The results of this study showed significant differences among ASEAN and top 10 countries regarding publication productivity. Moreover, a positive and significant relationship was observed between indices, GDP and internet usage for these countries. Surprisingly, international collaboration had a significant and negative relationship with economic growth. Malaysia had fewer citations per document (7.64) and international collaboration (36.9%) among ASEAN countries. In conclusion, international collaboration between academic institutes and researchers is influenced by economic growth and access to internet in the countries. Furthermore, publication trends in ASEAN countries are promising. However, policy makers and science managers should try to find different ways to increase the quality of the research publication and to raise citation per document.
Full Text: PDF DOI: 10.5539/mas.v8n2p160
Presentación de la conferencia de Daniel Denecke, Director of Best Practices of Council of Graduate Schools, en el Seminario: "La movilidad de investigadores entre EEUU y Europa", organizado por la Cátedra UNESCO de Gestión y Política Universitaria
Washington's education system ranks low nationally in spending per student. This is forcing businesses to import highly educated employees and is contributing to poor student performance. Only 16 out of 100 Washington students who enter college complete a degree within 6 years. Due to budget cuts, the University of Washington has lost teaching positions and offers fewer courses, potentially hurting students. Improving education is seen as important to the state's economic future.
This document provides the agenda and background materials for a statewide conference titled "Vision Project 'Big Three' Conference" being held on February 27, 2015. The conference will focus on advancing knowledge around strategies to increase college completion rates, close achievement gaps, and boost college participation among underserved groups. Campus delegations from various Massachusetts public colleges will participate in working sessions in the morning and afternoon focused on these three topics. They will discuss effective strategies currently being implemented and ways the Department of Higher Education can provide support moving forward.
In our third annual Vision Project Report, Degrees of Urgency, we highlight the "Big Three" Completion Plan to increase the number of students graduating with degrees and certificates.
For more, visit www.mass.edu/visionproject
Increasing university publication and citation rateNader Ale Ebrahim
Despite the vital role of paper publication and citation in higher education institutions (HEIs), literature on publication exercises is relatively scarce. There are a number of factors which influence the rate of university publications and citations. Accordingly, with a focus on policy perspectives, this paper discusses publication exercises by addressing the factors that can increase or decrease the rate of publication and citation in HEIs. The investigated zones are divided into two macro and micro levels, in which macro level deals with global policy and micro level is related to local and university policies. The effective factors and their relevant criteria are traced in all the aforementioned policies.
The Vision Project is the strategic initiative through which the Massachusetts Public Higher Education System as come together to focus on producing the best-educated citizenry and workforce in the nation by achieving national leadership on seven key outcomes, including Research and Economic Activity, meaning the research activity and resulting economic impact by the five campuses of the state's public research university, the University of Massachusetts. This presentation gives a preview of data showing where Massachusetts stands in these outcomes at the outset of the Vision Project. More information at www.mass.edu/visionproject. Original presentation date: May 3, 2011
E-Learning Research in Asia during 1996–2018 and the Four Country Indicators....eraser Juan José Calderón
Asia ranks third among eight regions in total e-learning documents, citable documents, citations, and self-citations from 1996-2018. It ranks fourth in citations per document and second in Hirsch index. The 28 Asian countries contributed around 20% of over 60 thousand global e-learning publications. The top ten countries, including China, South Korea, and Taiwan, accounted for over 36,000 documents.
The Board of Higher Education meeting discussed aligning high school science standards and college admissions requirements. They recommended revising the admissions science requirement to include three lab-based science, technology, or engineering courses. This would align with current high school standards and recognize technology/engineering courses taken for science credit. It establishes a more aligned system between K-12, higher education, and workforce needs for science, technology, engineering, and mathematics skills.
The document discusses the Times Higher Education World University Rankings for 2010-2011. It provides background on why university rankings are important given increasing globalization of higher education. It outlines improvements made to the 2010-2011 methodology, including greater emphasis on research excellence and citations over reputation surveys. The results are announced, with Harvard, Caltech, and MIT taking the top three spots.
The Vision Project is the strategic initiative through which the Massachusetts Public Higher Education System as come together to focus on producing the best-educated citizenry and workforce in the nation by achieving national leadership on seven key outcomes, including "College Participation," meaning the college readiness and college-going rates of the state's high school graduates. This presentation gives a preview of data showing where Massachusetts stands in college participation at the outset of the Vision Project and provides an overview of the people, projects, and deliverables involved in this outcome. More information at www.mass.edu/visionproject. Original presentation date: December 7, 2010
11th International Conference on Social Science and Humanities (ICSSH)Global R & D Services
CONFERENCE PROCEEDINGS
11th International Conference on Social Science and Humanities (ICSSH), 19-20 September 2016, London
Email: info@gahssr.org
http: //gahssr.org/
1. The study assessed the impact of Pakistan's 2001 devolution of power plan on secondary school dropout rates in Hazara division from 1999-2000 to 2003-2004. It found that the plan significantly reduced dropout rates overall and more for male versus female students.
2. A questionnaire was administered to principals from 150 randomly selected secondary schools across three districts. It collected data on pre-and post-plan dropout rates. Data analysis found that devolution empowered local authorities and communities, improving education service delivery and oversight in reducing dropout rates.
3. Key recommendations include further empowering district officials and communities through clarified roles and responsibilities as well as encouraging parental and community involvement in schools.
11.impact of devolution of power plan on studentsAlexander Decker
The document summarizes a study that assessed the impact of Pakistan's 2001 devolution of power plan on secondary school dropout rates in Hazara division. Key findings include:
1) Dropout rates significantly decreased after the plan's implementation, falling from 15.28% to 9.1%.
2) Male dropout rates saw a greater reduction (from 17.22% to 10.13%) than female rates (from 13.34% to 8.07%).
3) Before devolution, male dropout rates exceeded female rates; after, this gap narrowed.
The devolution plan empowered local communities and improved education service delivery, likely contributing to lower dropout rates overall and reducing pre-existing gender gaps.
This document is a senior independent study paper that aims to compare how native and immigrant black students value education. The paper begins with an introduction noting that black immigrants make up a disproportionate percentage of black students at selective higher education institutions compared to their percentage of the overall population. The literature review then summarizes several studies that provide context on factors that influence the valuation of education, such as parental involvement, assimilation, and wage differentials. Finally, the paper outlines an empirical analysis that will use regression analysis to determine whether differences in background variables can explain differences in how native and immigrant black students value education.
The document discusses teaching service science at the University of Toronto's iSchool. It provides an overview of the iSchool, which takes a multidisciplinary approach to studying information, people, and technology. Service science is introduced as bringing together many disciplines to understand service systems. The course INF2306: Introduction to Service Science is described, which applies service science concepts. It is aimed at helping students understand, model, and innovate service systems. Assignments include analyzing research through a service science framework, characterizing a organization as a service system, and modeling and proposing innovations for a service system.
The document summarizes a proposed initiative by the University System of Maryland (USM) to address the shortage of STEM teachers in the state. The initiative has two parts: 1) Producing new STEM teachers through programs to recruit STEM majors into teaching and certification programs for degree-holders, and 2) Supporting current STEM teachers through professional development programs. The goal is to triple the number of STEM teachers graduating from USM institutions over five years. An initial budget request of $1.5 million is made to fund planning, pilots, and costs related to students, faculty, and administration of the initiative.
“We found that large district size is
detrimental to achievement in Washington 4th and 7th grades in that it strengthens
the negative relationship between school poverty and student achievement.”
Further, they state, “the negative relationship between school poverty and
achievement is stronger in larger districts,” and “small schools appear to have the
greatest equity effects.” In other words, when school poverty is high, children
ii
perform better in small districts, and the effect of school level poverty on
achievement is smallest when both the district and school are small.
The document outlines the methodology used in the Academic Ranking of World Universities (ARWU). It discusses the history and development of ARWU since 2003. It describes the selection criteria including alumni awards, staff awards, highly cited researchers, papers in Nature and Science, total papers, and per capita performance. It also summarizes the results, features and impact of ARWU, and considers future directions including subject rankings, improvements to the methodology, and profiling of universities.
This study examines the gender gap in STEM education in Europe and its association with ethnic factors. It aims to understand the origins of the gender gap by studying how social constructs, rather than innate factors, influence career choices. The study will take a longitudinal approach, following students from high school through university to analyze how gender indicators in decision making change over time and differ across cultures. A mixed methodology will be used, combining quantitative surveys and qualitative interviews and focus groups to understand motivations and experiences from diverse perspectives. The research seeks to identify barriers preventing women from entering technical fields and inform policies to promote greater gender equality in STEM education and careers.
Nathanael Snow has extensive experience in economic research and analysis. He is currently an independent economic consultant providing expertise in antitrust and intellectual property cases. He has a Ph.D. in Economics from George Mason University and has worked for the U.S. International Trade Commission conducting research and analysis. He has also taught economics courses as an adjunct professor and has published academic articles and book chapters.
This document provides an overview and background of the Learning Analytics Workgroup (LAW) Project. The LAW Project was created in 2012 with funding from the Bill and Melinda Gates Foundation and MacArthur Foundation to build the field of learning analytics for personalized learning at scale. The LAW Project has included workshops, conference panels, a crowd-sourcing campaign, the first Learning Analytics Summer Institute, and the commissioning of white papers. This report summarizes the activities and goals of the LAW Project to outline a conceptual framework, critical questions, priorities, resources needed, and roadmap for the field of learning analytics.
This document summarizes a research study on the socio-economic impact on the performance of distance learners at the Institute of Distance Education at the University of Mumbai. Some key findings of the study include:
- The majority of distance learners were unmarried, Hindu, from upper castes and living in cities with monthly family incomes below Rs. 8,000.
- Arts students performed better than Commerce students in the first year, while female learners performed slightly better than males in the second year. Unmarried learners also performed better than married learners.
- Performance was found to increase with higher family income in the first year, while those with incomes between Rs. 3,001-5,
The document summarizes activities and updates from Lawson State Community College's 2-Pi STEM and GA-AL LSAMP programs, which aim to increase the number of underrepresented minorities pursuing STEM careers. It provides profiles of STEM scholars who have received awards, participated in conferences and research experiences, and attended events at other universities to learn about STEM programs. It also summarizes the programs' goals and achievements in increasing STEM enrollment, completion rates, and transfers to 4-year institutions.
Presented by Albert Carrisalez, this gives an overview of the plans UTSA has in place to become a Tier 1 University. Shown to The Greater San Antonio Chamber of Commerce Education/Workforce Committee on February 10, 2009.
Using socioeconomic data in teaching and researchJackie Carter
This document summarizes a project investigating socioeconomic data resources used in research and teaching. Interviews were conducted with 12 data users, primarily students and academics. It was found that the World Bank's World Development Indicators were widely used in teaching, particularly at the master's level. Users appreciated the single access point through ESDS International but requested additional data and tools. The interviews provided insights into how data is used for descriptive statistics, regression analysis, and undergraduate dissertations. The document concludes that further examples of data use in teaching are needed, especially at the undergraduate level.
An Approach To An Online EdD In Community College Leadership ProgramSteven Wallach
This document discusses strategies for an effective online EdD in Community College Leadership program. It begins by outlining the benefits of online programs, such as increased access and diversity among students. It then describes key strategies for the program, including using a cohort model to promote connection and support among students, designing a practical curriculum with a balance of synchronous and asynchronous activities, and incorporating mentors. The overall goal is to create an engaging virtual learning environment for working professionals seeking a doctorate.
This study examined international student enrollment data from 2001, 2005, and 2011 at U.S. 4-year institutions to identify trends over the past decade. The study found that while overall international enrollments increased, the U.S. market share declined relative to increased global competition. Additionally, graduate enrollments remained higher than undergraduate enrollments, but undergraduate enrollments saw larger growth. Understanding enrollment trends can help institutions effectively strategize international recruitment efforts amid changing global conditions.
This document summarizes a study comparing course completion rates between veteran and non-veteran students at Grantham University. The study reviewed data from the first two quarters of 2015 on completion rates in foundation courses across different schools. The results showed a difference in completion rates between the two groups. The document provides background on veterans as nontraditional students and the challenges they face transitioning to education. It discusses strategies to support student success, including the VIP2 theoretical framework, and defines key terms. The methodology section describes how archival data was collected from Blackboard and analyzed.
E-Learning Research in Asia during 1996–2018 and the Four Country Indicators....eraser Juan José Calderón
Asia ranks third among eight regions in total e-learning documents, citable documents, citations, and self-citations from 1996-2018. It ranks fourth in citations per document and second in Hirsch index. The 28 Asian countries contributed around 20% of over 60 thousand global e-learning publications. The top ten countries, including China, South Korea, and Taiwan, accounted for over 36,000 documents.
The Board of Higher Education meeting discussed aligning high school science standards and college admissions requirements. They recommended revising the admissions science requirement to include three lab-based science, technology, or engineering courses. This would align with current high school standards and recognize technology/engineering courses taken for science credit. It establishes a more aligned system between K-12, higher education, and workforce needs for science, technology, engineering, and mathematics skills.
The document discusses the Times Higher Education World University Rankings for 2010-2011. It provides background on why university rankings are important given increasing globalization of higher education. It outlines improvements made to the 2010-2011 methodology, including greater emphasis on research excellence and citations over reputation surveys. The results are announced, with Harvard, Caltech, and MIT taking the top three spots.
The Vision Project is the strategic initiative through which the Massachusetts Public Higher Education System as come together to focus on producing the best-educated citizenry and workforce in the nation by achieving national leadership on seven key outcomes, including "College Participation," meaning the college readiness and college-going rates of the state's high school graduates. This presentation gives a preview of data showing where Massachusetts stands in college participation at the outset of the Vision Project and provides an overview of the people, projects, and deliverables involved in this outcome. More information at www.mass.edu/visionproject. Original presentation date: December 7, 2010
11th International Conference on Social Science and Humanities (ICSSH)Global R & D Services
CONFERENCE PROCEEDINGS
11th International Conference on Social Science and Humanities (ICSSH), 19-20 September 2016, London
Email: info@gahssr.org
http: //gahssr.org/
1. The study assessed the impact of Pakistan's 2001 devolution of power plan on secondary school dropout rates in Hazara division from 1999-2000 to 2003-2004. It found that the plan significantly reduced dropout rates overall and more for male versus female students.
2. A questionnaire was administered to principals from 150 randomly selected secondary schools across three districts. It collected data on pre-and post-plan dropout rates. Data analysis found that devolution empowered local authorities and communities, improving education service delivery and oversight in reducing dropout rates.
3. Key recommendations include further empowering district officials and communities through clarified roles and responsibilities as well as encouraging parental and community involvement in schools.
11.impact of devolution of power plan on studentsAlexander Decker
The document summarizes a study that assessed the impact of Pakistan's 2001 devolution of power plan on secondary school dropout rates in Hazara division. Key findings include:
1) Dropout rates significantly decreased after the plan's implementation, falling from 15.28% to 9.1%.
2) Male dropout rates saw a greater reduction (from 17.22% to 10.13%) than female rates (from 13.34% to 8.07%).
3) Before devolution, male dropout rates exceeded female rates; after, this gap narrowed.
The devolution plan empowered local communities and improved education service delivery, likely contributing to lower dropout rates overall and reducing pre-existing gender gaps.
This document is a senior independent study paper that aims to compare how native and immigrant black students value education. The paper begins with an introduction noting that black immigrants make up a disproportionate percentage of black students at selective higher education institutions compared to their percentage of the overall population. The literature review then summarizes several studies that provide context on factors that influence the valuation of education, such as parental involvement, assimilation, and wage differentials. Finally, the paper outlines an empirical analysis that will use regression analysis to determine whether differences in background variables can explain differences in how native and immigrant black students value education.
The document discusses teaching service science at the University of Toronto's iSchool. It provides an overview of the iSchool, which takes a multidisciplinary approach to studying information, people, and technology. Service science is introduced as bringing together many disciplines to understand service systems. The course INF2306: Introduction to Service Science is described, which applies service science concepts. It is aimed at helping students understand, model, and innovate service systems. Assignments include analyzing research through a service science framework, characterizing a organization as a service system, and modeling and proposing innovations for a service system.
The document summarizes a proposed initiative by the University System of Maryland (USM) to address the shortage of STEM teachers in the state. The initiative has two parts: 1) Producing new STEM teachers through programs to recruit STEM majors into teaching and certification programs for degree-holders, and 2) Supporting current STEM teachers through professional development programs. The goal is to triple the number of STEM teachers graduating from USM institutions over five years. An initial budget request of $1.5 million is made to fund planning, pilots, and costs related to students, faculty, and administration of the initiative.
“We found that large district size is
detrimental to achievement in Washington 4th and 7th grades in that it strengthens
the negative relationship between school poverty and student achievement.”
Further, they state, “the negative relationship between school poverty and
achievement is stronger in larger districts,” and “small schools appear to have the
greatest equity effects.” In other words, when school poverty is high, children
ii
perform better in small districts, and the effect of school level poverty on
achievement is smallest when both the district and school are small.
The document outlines the methodology used in the Academic Ranking of World Universities (ARWU). It discusses the history and development of ARWU since 2003. It describes the selection criteria including alumni awards, staff awards, highly cited researchers, papers in Nature and Science, total papers, and per capita performance. It also summarizes the results, features and impact of ARWU, and considers future directions including subject rankings, improvements to the methodology, and profiling of universities.
This study examines the gender gap in STEM education in Europe and its association with ethnic factors. It aims to understand the origins of the gender gap by studying how social constructs, rather than innate factors, influence career choices. The study will take a longitudinal approach, following students from high school through university to analyze how gender indicators in decision making change over time and differ across cultures. A mixed methodology will be used, combining quantitative surveys and qualitative interviews and focus groups to understand motivations and experiences from diverse perspectives. The research seeks to identify barriers preventing women from entering technical fields and inform policies to promote greater gender equality in STEM education and careers.
Nathanael Snow has extensive experience in economic research and analysis. He is currently an independent economic consultant providing expertise in antitrust and intellectual property cases. He has a Ph.D. in Economics from George Mason University and has worked for the U.S. International Trade Commission conducting research and analysis. He has also taught economics courses as an adjunct professor and has published academic articles and book chapters.
This document provides an overview and background of the Learning Analytics Workgroup (LAW) Project. The LAW Project was created in 2012 with funding from the Bill and Melinda Gates Foundation and MacArthur Foundation to build the field of learning analytics for personalized learning at scale. The LAW Project has included workshops, conference panels, a crowd-sourcing campaign, the first Learning Analytics Summer Institute, and the commissioning of white papers. This report summarizes the activities and goals of the LAW Project to outline a conceptual framework, critical questions, priorities, resources needed, and roadmap for the field of learning analytics.
This document summarizes a research study on the socio-economic impact on the performance of distance learners at the Institute of Distance Education at the University of Mumbai. Some key findings of the study include:
- The majority of distance learners were unmarried, Hindu, from upper castes and living in cities with monthly family incomes below Rs. 8,000.
- Arts students performed better than Commerce students in the first year, while female learners performed slightly better than males in the second year. Unmarried learners also performed better than married learners.
- Performance was found to increase with higher family income in the first year, while those with incomes between Rs. 3,001-5,
The document summarizes activities and updates from Lawson State Community College's 2-Pi STEM and GA-AL LSAMP programs, which aim to increase the number of underrepresented minorities pursuing STEM careers. It provides profiles of STEM scholars who have received awards, participated in conferences and research experiences, and attended events at other universities to learn about STEM programs. It also summarizes the programs' goals and achievements in increasing STEM enrollment, completion rates, and transfers to 4-year institutions.
Presented by Albert Carrisalez, this gives an overview of the plans UTSA has in place to become a Tier 1 University. Shown to The Greater San Antonio Chamber of Commerce Education/Workforce Committee on February 10, 2009.
Using socioeconomic data in teaching and researchJackie Carter
This document summarizes a project investigating socioeconomic data resources used in research and teaching. Interviews were conducted with 12 data users, primarily students and academics. It was found that the World Bank's World Development Indicators were widely used in teaching, particularly at the master's level. Users appreciated the single access point through ESDS International but requested additional data and tools. The interviews provided insights into how data is used for descriptive statistics, regression analysis, and undergraduate dissertations. The document concludes that further examples of data use in teaching are needed, especially at the undergraduate level.
An Approach To An Online EdD In Community College Leadership ProgramSteven Wallach
This document discusses strategies for an effective online EdD in Community College Leadership program. It begins by outlining the benefits of online programs, such as increased access and diversity among students. It then describes key strategies for the program, including using a cohort model to promote connection and support among students, designing a practical curriculum with a balance of synchronous and asynchronous activities, and incorporating mentors. The overall goal is to create an engaging virtual learning environment for working professionals seeking a doctorate.
This study examined international student enrollment data from 2001, 2005, and 2011 at U.S. 4-year institutions to identify trends over the past decade. The study found that while overall international enrollments increased, the U.S. market share declined relative to increased global competition. Additionally, graduate enrollments remained higher than undergraduate enrollments, but undergraduate enrollments saw larger growth. Understanding enrollment trends can help institutions effectively strategize international recruitment efforts amid changing global conditions.
This document summarizes a study comparing course completion rates between veteran and non-veteran students at Grantham University. The study reviewed data from the first two quarters of 2015 on completion rates in foundation courses across different schools. The results showed a difference in completion rates between the two groups. The document provides background on veterans as nontraditional students and the challenges they face transitioning to education. It discusses strategies to support student success, including the VIP2 theoretical framework, and defines key terms. The methodology section describes how archival data was collected from Blackboard and analyzed.
Using Learning analytics to support learners and teachers at the Open UniversityBart Rienties
In this seminar Prof Bart Rienties will reflect on how the Open University UK has become a leading institution in implementing learning analytics at scale amongst its 170K students and 5K staff. Furthermore, he will discuss how learning analytics is being adopted at other UK institutions, and what the implications for higher education might be in these Covid19 times.
https://www.kent.ac.uk/cshe/news-events.html
This study developed surveys to assess the technology skills of college students and faculty perspectives on necessary skills. A faculty survey was administered to identify important skills for student success. The purpose was to examine differences based on factors like subject area and experience. A student assessment evaluated entry-level skills and examined differences based on demographics and major. The goal was to determine if students have necessary skills or if a computer course is needed. Research questions addressed faculty-identified important skills, differences in those views, student demonstrated skills, differences there, and student readiness.
The study sought to establish the impact of electronic information services (EIS) on students and alumni of Glasgow Caledonian University. Questionnaires were distributed to current students and alumni to collect both quantitative and qualitative data on EIS usage and information literacy. The data was analyzed to compare results between groups and identify commonly used resources. It was found that respondents understood the concept of information literacy, which alumni felt gave them an advantage in their careers. Unemployed alumni were less engaged with information literacy skills. The study concluded that information literacy skills learned in university could be directly applied and useful in the workplace.
This study examines internationalization at U.S. research universities through their study abroad programs. It assesses whether relationships exist between institutional inputs like staffing and funding, coordination processes by international offices, and outputs like number of students studying abroad. The findings show human resources, financial resources, and number of study abroad programs positively correlate with more students studying abroad. Number of exchange programs and international partnerships also increase exchange students. The study recommends optimizing staffing and budgets to better support internationalization through study abroad.
Migration of skilled professionals from developing countriesAlexander Decker
This study analyzes skilled labor migration from India to the United States and its impact on India's socioeconomic development. A survey of 107 skilled Indian migrants in the US finds that migration contributes to India through technology transfer, remittances, entrepreneurship, philanthropy and social networking. Over half of respondents send 10-20% of income back to India. While migration benefits individuals and families through higher incomes, it also benefits India through remittances and potential return of skilled workers with new skills and knowledge. The study recommends reducing costs of remittances and improving data collection on remittance flows to maximize their benefits.
11.migration of skilled professionals from developing countriesAlexander Decker
This study analyzes skilled labor migration from India to the United States and its impact on India's socioeconomic development. A survey of 107 skilled Indian migrants in the US finds that migration contributes to India through technology transfer, remittances, entrepreneurship, philanthropy and social networking. Over half of respondents send 10-20% of income back to India. While migration benefits individuals and families through higher incomes, it also benefits India through remittances and potential return of skilled workers with new skills and knowledge. The study recommends reducing costs of remittances and improving data collection on remittance amounts and flows to maximize migration's contributions to development.
The Role Of External Factors That Affect Student...Nicole Gomez
The document discusses best practices used in a learning skills and algebra classroom. It describes utilizing a student information system to track grades, attendance, medical needs, and IEP information. Formative assessments are used to monitor progress and guide instruction. Lessons incorporate visual, auditory and kinesthetic learning styles through interactive activities, technology, and collaborative work. Data-driven instruction and co-planning with other teachers ensures individual student needs are met.
A Comparison Between Online And On-Campus Classes Taking University Students...Tony Lisko
This document summarizes a study that compared university students' perceptions of online classes versus on-campus classes. The study surveyed 440 students from public and private universities in Lahore, Pakistan. The results showed that overall, university students prefer on-campus classes compared to online classes. Additionally, male students were more inclined toward online classes while female students favored on-campus classes. The study aimed to gain insight into students' preferences to inform how they should be taught.
This technical report summarizes a study that replicated research from Georgia on the influence of district size, school size, and socioeconomic status on student achievement in Washington state. The study used hierarchical linear modeling to analyze the joint effects of school and district variables on 4th and 7th grade test scores. It found that large district size has a detrimental effect by strengthening the negative relationship between school poverty and student achievement. The negative relationship between school poverty and achievement is also stronger in larger districts. Additionally, the effect of school-level poverty on achievement is smallest when both the district and school are small.
The document summarizes a technical report that uses hierarchical linear modeling to replicate a previous study examining the influence of district size, school size, and socioeconomic status on student achievement in Washington state. The study analyzes 4th and 7th grade test score data and finds that:
1) Large district size is detrimental to achievement as it strengthens the negative relationship between school poverty and student achievement.
2) The negative relationship between school poverty and achievement is stronger in larger districts.
3) Small schools appear to have the greatest equity effects, with the effect of school-level poverty on achievement being smallest when both the district and school are small.
These slides were presented by www.doctoralnet.com at a regular Sunday dissertation help conference on https://www.bigmarker.com/doctoralnet. Based on international assessment standards, our conversation looked in depth at the various parts of the dissertation or thesis document and what differentiates "normal" from "outstanding or award winning."
Executive Program Practical Connection AssignmentISOL532 Cloud C.docxrhetttrevannion
Executive Program Practical Connection Assignment
ISOL532 Cloud Computing (Due Friday Evening by 11:59 PM)
At UC, it is a priority that students are provided with strong educational programs and courses that allow them to be servant-leaders in their disciplines and communities, linking research with practice and knowledge with ethical decision-making. This assignment is a written assignment where students will demonstrate how this course research has connected and put into practice within their own career.
Assignment:
Provide a reflection of at least 500 words (or 2 pages double spaced) of how the knowledge, skills, or theories of this course have been applied, or could be applied, in a practical manner to your current work environment. If you are not currently working, share times when you have or could observe these theories and knowledge could be applied to an employment opportunity in your field of study.
Requirements:
Provide a 500 word (or 2 pages double spaced) minimum reflection.
Use proper APA formatting and citations. If supporting evidence from outside resources is used those must be properly cited.
Share a personal connection that identifies specific knowledge and theories from this course.
Demonstrate a connection to your current work environment. If you are not employed, demonstrate a connection to your desired work environment.
You should NOT provide an overview of the assignments assigned in the course. The assignment is to reflect how the knowledge and skills obtained through meeting course objectives were applied or could be applied in the workplace.
Personal Connection paper should have a maximum of 20% similarity score.
Hospitality Education Quality Improvement in Oversea
Abstract
The advanced education of student has turned out to be progressively internationalized, with a congesting extent of student starting from abroad. In any case, research to date proposes that abroad student are frequently less happy with their courses than different understudies. Thus, there is a prospering requirement for colleges to comprehend what student an incentive they would say. This paper gives an account of an investigation that sets up and tests measurements for estimating administration quality in advanced education, concentrating on full-fee paying postgraduate student from non-EU nations at one foundation in the UK.The establishment concerned has a specific notoriety in tourism and neighbourliness and a critical
Extent of the respondents were examining these subjects. The results of the research highlighted four factors of service quality: recognition; quality of instruction and interaction with faculty; sufficiency of resources; and aspects of physical quality. Arguably, the most significant finding here is the importance that these students attach to their institution’s reputation.
Keywords: Administration quality; higher training; International Students.
Introduction
The training of full-expense payin.
Executive Program Practical Connection AssignmentISOL532 Cloud C.docxelbanglis
Executive Program Practical Connection Assignment
ISOL532 Cloud Computing (Due Friday Evening by 11:59 PM)
At UC, it is a priority that students are provided with strong educational programs and courses that allow them to be servant-leaders in their disciplines and communities, linking research with practice and knowledge with ethical decision-making. This assignment is a written assignment where students will demonstrate how this course research has connected and put into practice within their own career.
Assignment:
Provide a reflection of at least 500 words (or 2 pages double spaced) of how the knowledge, skills, or theories of this course have been applied, or could be applied, in a practical manner to your current work environment. If you are not currently working, share times when you have or could observe these theories and knowledge could be applied to an employment opportunity in your field of study.
Requirements:
Provide a 500 word (or 2 pages double spaced) minimum reflection.
Use proper APA formatting and citations. If supporting evidence from outside resources is used those must be properly cited.
Share a personal connection that identifies specific knowledge and theories from this course.
Demonstrate a connection to your current work environment. If you are not employed, demonstrate a connection to your desired work environment.
You should NOT provide an overview of the assignments assigned in the course. The assignment is to reflect how the knowledge and skills obtained through meeting course objectives were applied or could be applied in the workplace.
Personal Connection paper should have a maximum of 20% similarity score.
Hospitality Education Quality Improvement in Oversea
Abstract
The advanced education of student has turned out to be progressively internationalized, with a congesting extent of student starting from abroad. In any case, research to date proposes that abroad student are frequently less happy with their courses than different understudies. Thus, there is a prospering requirement for colleges to comprehend what student an incentive they would say. This paper gives an account of an investigation that sets up and tests measurements for estimating administration quality in advanced education, concentrating on full-fee paying postgraduate student from non-EU nations at one foundation in the UK.The establishment concerned has a specific notoriety in tourism and neighbourliness and a critical
Extent of the respondents were examining these subjects. The results of the research highlighted four factors of service quality: recognition; quality of instruction and interaction with faculty; sufficiency of resources; and aspects of physical quality. Arguably, the most significant finding here is the importance that these students attach to their institution’s reputation.
Keywords: Administration quality; higher training; International Students.
Introduction
The training of full-expense payin ...
Assessing Transfer Student PerformanceHyder Abadin
This document is a thesis that assesses the performance of transfer students at Minnesota State University, Mankato. It begins by discussing societal, demographic, and university initiatives that have led to an increase in transfer students. It then defines transfer students and native students. The literature review shows that previous research has found transfer students generally have lower GPAs, retention rates, and graduation rates than native students. However, the thesis aims to compare the performance of transfer students and native students at Minnesota State University, Mankato.
This document analyzes data on the college pathways and outcomes of Philadelphia students. Some of the key findings include:
1) The number of college applications from Philadelphia students has increased significantly from 2003-2009, but acceptances and enrollments did not increase at the same rate.
2) Over 23% of Philadelphia students at four-year institutions required developmental education, especially in English. At the community college, over half of students required developmental courses in math or English.
3) While getting through the first year of college is important, students can fall off track even after the second year - 25% failed to complete within 6 years after the second year.
The document discusses these findings and poses questions to
Similar to Are Universities Sticky-Evidence from Linkedin Users (20)
Are Universities Sticky-Evidence from Linkedin Users
1. UNIVERSITY OF CALIFORNIA
Los Angeles
Are Universities Sticky?
Evidence from LinkedIn Users in the U.S.
A thesis submitted in partial satisfaction
of the requirements for the degree Master of Arts
In Urban and Regional Planning
by
Jing Deng
2014
2.
3. ii
ABSTRACT OF THE THESIS
Are Universities Sticky?
Evidence from LinkedIn Users in the U.S.
By
Jing Deng
Master of Arts in Urban Planning
University of California, Los Angeles, 2014
Professor Michael Storper, Chair
This study examines college-to-work migration of graduates in the United States using big data
from the professional networking website LinkedIn, with a special focus on how the ratio of
graduates staying at the areas of study changes over time and how universities affect the stay
rate. A multivariate least squares regression model is adopted for analysis. The research finds
over 40 percent of graduates graduated 2003-2012 have stayed in the areas of study, with the
most recent graduates having the highest stay rate. Graduates from the more prestigious
universities are more likely to migrate after graduation. Metropolitan size still dominates
variations in stay rates. Strengths and limitations of big data are also explored in this study.
4. iii
The thesis of Jing Deng is approved.
Robin Liggett
Leobardo Estrada
Michael Storper, Committee Chair
University of California, Los Angeles
2014
5. iv
Table of Contents
List of Figures...................................................................................................................................v
List of Tables...................................................................................................................................vi
List of Supplementary Materials ....................................................................................................vii
Chapter 1: Purpose and Significance of the Study ........................................................................ 1
Chapter 2: Literature Review .......................................................................................................... 2
Chapter 3: Methodology ................................................................................................................. 4
Chapter 4: Data............................................................................................................................... 6
Chapter 5: Findings......................................................................................................................... 8
Chapter 6: Discussions................................................................................................................. 15
Chapter 7: Conclusion .................................................................................................................. 19
Appendix 1: Obtain LinkedIn data ................................................................................................ 20
Appendix 2: University Ranking Model Indicators........................................................................ 22
Appendix 3: List of Universities .................................................................................................... 26
Bibliography .................................................................................................................................. 43
6. v
List of Figures
Figure 1 Average Stay Rate over 10 Years for All Universities ..................................................... 9
7. vi
List of Tables
Table 1 List of Variables ................................................................................................................. 7
Table 2 Descriptive Statistics: Stay Rate ....................................................................................... 8
Table 3 University Ranking and Stay Rate................................................................................... 10
Table 4 University Ranking and Stay Rate (continued) ............................................................... 10
Table 5 University Type and Stay rate ......................................................................................... 11
Table 6 Ratio of Graduate Students and Stay rate ...................................................................... 11
Table 7 Net Price and Stay rate ................................................................................................... 11
Table 8 Campus Setting and Stay rate ........................................................................................ 12
Table 9 Metropolitan Characteristics and Stay rate..................................................................... 12
Table 10 Model Summary and ANOVA Table ............................................................................. 13
Table 11 Model: Coefficients ........................................................................................................ 14
8. vii
List of Supplementary Materials
Appendix 1: Obtaining LinkdedIn data………………………………………………………………20
Appendix 2: University Ranking Model Indicators………………………………………………….22
Appendix 3: List of Universities………………………………………………………………………26
9. 1
Chapter 1: Purpose and Significance of the Study
Human capital is, if not the most important, a very significant contributor to economic
growth (Arrow, 1962; Romer, 1986 &1990; Lucas, 1988; Storper & Scott, 2009). As the
institutions that generate high quality human capital, universities play an important role in
facilitating growth (Gyimah-Brempong, Paddison, & Mitiku, 2005; Horri et al., 2008; Curs,
Bhandari, & Steiger, 2011). For regional economists, of particular interest is how higher
education fosters local development (Bradley & Taylor, 1996; Faggian & McCann, 2006). While
at the national level all regions benefit from human-capital growth, the regional rates of return to
higher education depend largely on the migration behavior of students prior to and after higher
education (Bennett et al., 1995; Faggian & McCann, 2006).
Although the migration pattern of university graduates in the U.S. has been studied by
many scholars (Yousefi & Rives, 1987; Kodrzycki, 2001; Hansen, Ban & Huggins. 2003;
Gottlieb & Joseph, 2006; Whisler, Waldorf, Mulligan, & Plane, 2008), little attention has been
paid to how universities affect graduates’ migration. Most of the existing studies focus on
individual characteristics and region-specific factors, including economic opportunities and
amenities (Yousefi & Rives, 1987; Kodrzycki, 2001; Hansen, Ban & Huggins, 2003; Gottlieb &
Joseph, 2006). Whether universities play a role in determining where graduates go is left largely
unanswered.
In this study, I investigate the effect of universities on graduates’ migration using big data
generated from user profiles on LinkedIn.com. I investigate more than 4 million graduates who
graduated between 2003 and 2012 from 217 universities nationwide. Of particular interest is
how many of the graduates are staying in the metropolitan areas of their universities, and how
that percentage varies for cohorts graduated in different years. The research will explore how
university characteristics including academic ranking, type, campus setting, ratio of graduates,
10. 2
and price affect stay rate. Metropolitan size and income level are also examined to provide more
comprehensive understanding.
This study will join the growing list of literature on college-to-work migration in the U.S.
Its contribution, if any, might be in two ways. First, it provides new evidence on how universities
contribute to local human capital stock. Secondly, it serves as an example using big data
generated by social media for academic study. Some of the strengths and limitations of big data
are revealed in this study.
The rest of the paper is organized as follows. The next chapter discusses the literature
on college-to-work migration by scholars in and outside of the U.S. Chapter 3 describes the
methods I use, followed by a description of data in chapter 4. Chapter 5 introduces the main
findings, which is further discussed in chapter 6. The chapter also covers discussions on the
advantages and limitations of big data. Conclusions are reported in chapter 7.
Chapter 2: Literature Review
College-to-work migration has drawn wide interest from scholars in and outside of the
U.S.
In Europe and Canada, existing studies explore how personal and place factors affect
migration (Faggian, McCann, & Sheppard, 2007; Delisle and Shearmur, 2010; Venhorst, Van
Dijk, & Van Wissen, 2011), how migration happen over time (Haapanen & Tervo, 2012), and
how universities affect students’ loyalty to university towns (Øyvind, Erik, & Øivind, 2013).
Faggian et al (2007) track 76,000 Scottish and Welsh students from their domicile to higher
education to work location and analyze their migration pattern with a logit model. Results show
higher human capital individuals have higher geographical mobility (Faggian et al., 2007).
Delisle and Shearmur (2010) compare the migration patterns of graduates and non-graduates in
11. 3
Canada using census data of 10,000 individuals. With a gravity model, the study finds that at
the interregional level, graduates and non-graduates follow the same pattern of migrating from
low-income to high-income regions, whereas at the intraregional level, graduates are more likely
to migrate to more educated places than non-graduates (Delisle and Shearmur, 2010). Venhorst
at al. (2011) investigate how individual and regional characteristics affect migration using a
micro dataset on Dutch college and university students, and found that a large labor market is
the most important determinant for regions to retain graduates. Haapanen and Tervo (2012)
study Finnish university graduates spanning 1991-2003 and observe whether graduates stay
and for how long using micro-data. They find that most of the Finnish graduates do not move
from their region of study within 10 years after graduation (Haapanen and Tervo, 2012). They
also find graduates’ propensity to migrate is particularly high in the first two years after
graduation (Haapanen and Tervo, 2012). Norwegian scholars study students’ loyalty to their
student town using a partial least square path model, and find social activities is the most
important loyalty driver, while the university’s reputation also influences student loyalty (Øyvind
et al., 2013).
For the United States, existing literature largely focuses on how individual and regional
characteristics affect migration (Yousefi and Rives, 1987; Kodrzycki, 2001; Hansen et al., 2003;
Gottlieb and Joseph, 2006; Whisler et al., 2008). Kodrzycki (2001) use the National Longitudinal
Survey of Youth (NLSY) to map the migration pattern of about 6,000 individuals and figured out
the major destination regions. The study find adults who have a college degree are more likely
to live in a state different from their places of education than adults who do not have a college
degree (Kodrzycki, 2001). Hansen et al. (2003) survey 2,131 graduates from the Pittsburgh-
area universities on their migration decisions prior to and after attending university. They find
economic opportunities, low housing costs, and opportunities for continuing education are the
main reasons (Hansen et al., 2003). Gottlieb and Joseph (2006) apply a logit model to the
12. 4
college-to-work migration of technology graduates and doctorate degree holders in the U.S,
focusing on the effect of personal characteristics and place characteristics. They find that
technology graduates migrate to better educated places and PhD graduates pay greater
attention to amenities, although amenities play a relatively weak role overall (Gottlieb & Joseph,
2006). Whisler et al (2008) study how old and young college-educated adults value quality of
life, and find that while the elder college-educated cohort value climate and safety more, the
younger college-educated cohort prefer cultural and recreational amenities.
One major drawback of the existing literature on graduate-to-work migration in the
United States is a lack of variations in issues explored. Unlike the European counterpart which
concerns a variety of issues related to graduate migration, the U.S. literature narrowly focuses
on the correlation between people/place factors and migration.
Another limitation is data size. The existing literature relies heavily on micro-data. Some
studies use opinion surveys (Yousefi & Rives, 1987; Hansen et al., 2003; Whisler at al., 2008),
which risks severe bias as what people think is often different from what they do. Other studies
use surveys on facts (Kodrzycki, 2001; Hansen et al., 2003; Gottlieb & Joseph, 2006; Venhorst
et al., 2011). Fact surveys are more accurate, yet like opinion surveys, they suffer from limited
sample size and coverage. For a small country in Europe, this may not be a big problem, as the
population is also small. But for the United States, small sample and limited coverage means
the findings are hard to generalize.
Chapter 3: Methodology
This research aims to generate a big picture of college-to-work migration in the United
States using big data. Instead of looking at where graduates go, the study focuses on how many
13. 5
of them stay. The idea is to explore how universities help retain graduates in the area of
education.
To begin with, I observe how stay rate changes over time. A simple linear model is used
to estimate the relationship between time and the average stay rate of all sampled universities:
Y= β0 + β 1T (model 1)
In the model, Y (stay rate) stands for the percentage of university graduates who
currently live in the metropolitan area of study. T is the number of years after graduation, which
is 2013 subtracted by the year of graduation.
To examine how university factors as well as metropolitan factors affect stay rate, I use a
linear regression model which concerns a set of university characteristics and a set of
metropolitan characteristics. Because little is known about how universities affect graduates’
migration, the model takes into consideration quite a few possible factors, including campus
setting, type of university, price, ratio of graduate students, and academic ranking. For
metropolitan characteristics, the model concerns economic characteristics only, because
previous studies indicate that economic characteristics are the most important place factors in
college-to-work migration (Kodrzycki, 2001; Hansen, Ban and Huggins, 2003; Gottlieb and
Joseph, 2006; Venhorst, Van Dijk, & Van Wissen, 2011).
The model can then be expressed as:
Y=β0+ lu+ fm (model 2)
Here Y (stay rate) is the percentage of university graduates who currently live in the
metropolitan area of study. lu is a set of university variables, including campus setting, type of
university, ratio of graduate students, and academic ranking. fm is a set of metropolitan
variables, including population and GDP per capita.
14. 6
Chapter 4: Data
Drawing on user-reported information, LinkedIn generates interesting statistics on users’
current places of living and educational backgrounds. Using the “find alumni” function, users can
view the spatial distribution of alumni from any university (see Appendix 1). The “find alumni”
function used to allow users to specify the years of graduation in the search. With this function, I
recorded the LinkedIn alumni statistics report for 217 universities in early March, 2014. The
following paragraph explains how the university sample is selected.
The list of universities is composed of 4-year universities in the United States that match
the following conditions: 1) provide a full range of degree programs (bachelor’s, master’s,
doctorate) 2) have over 10,000 undergraduates 3) operate on physical campuses 4) have a
recognizable title on LinkedIn. The first condition reduces variances in the human capital quality
of the sampled universities, thus increases sample comparability. The second condition reduces
sample size and keeps the data manageable. The third condition eliminates online universities.
The fourth condition ensures that the university’s alumni information is available on LinkedIn.
Under those conditions, a total number of 217 universities are selected. The full list of 4-year
U.S. universities together with university characteristics information is downloaded from the
National Center for Educational Statistics (nces.gov) on Nov. 29, 2013.
To observe time trend, I choose a 10-year period from 2003 to 2012. The reason why
2003 is chosen as the first year is that LinkedIn was officially launched in May, 2003. Since
LinkedIn was first recognized on university campuses, cohorts who graduated before 2003 are
less likely to have a LinkedIn account.
Using the sampling method above, a sample covering a total number of 4,677,721
graduates who graduated from the 217 universities between 2003 and 2012 is composed1
.
1 The data was retrieved from LinkedIn in early march, 2014. Because the number of LinkedIn users is
changing all the time, the number may be different when accessed at a different time.
15. 7
University characteristics data come from two sources. Number of students, university
type, ratio of graduates, and net price2
comes with the full list of 4-year universities provided by
the National Center for Educational Statistics (nces.ed.gov). Academic ranking draws on the
2014 U.S. News & World Report3
(www.usnews.com/usnews/edu/college/rankings/) (see
ranking method in Appendix 2). Because the original rankings list only includes the top 200
universities, some universities in the sample are not covered. Two dummy variables are
constructed: top ranked or not (ranking 1-100) and middle ranked or not (ranking 101-200).
Metropolitan characteristics data come from the U.S. census. Population data is
retrieved from 2010 U.S. census. Metropolitan income level (GDP per capita) is from 2012 U.S.
census. A major challenge was to decide which “metropolitan area” concept to use, since
different definitions correspond to different population and income data. When LinkedIn
presents the data, it uses combined statistical area (CSA) for some cases and metropolitan
statistical areas (MSA) for other cases (see Appendix 1). The idea seems to be using the
maximum metropolitan concept available. To be consistent with LinkedIn’s definition, this
research uses the same CSAs and MSAs for metropolitan characteristics (97 CSAs and 48
MSAs).
Table 1 List of Variables
Variables Operations
UniversityCharacteristics
2
** Net Price is Average Net Price for 2011-2012 generated for full-time beginning undergraduate
students who were awarded grant or scholarship aid from federal, state or local governments, or the
institution. For public institutions only students paying the in-state or in-district rate are included. For
institutions that charge students by program, net price is generated for the institution’s largest program.
3 We also considered using the Times Higher Education Supplement world university rankings for
reference. Only 78 out of the 217 sampled universities are included on the Times rankings list. Because
the U.S. News rankings covers more sampled universities (110), we decide to use the U.S. News
rankings instead.
16. 8
Top ranked (dummy) 1= rank 1-100 0= else
Middle ranked (dummy) 1= rank 101-200 0=else
Campus Setting
Type
Net Price
Ratio of graduate students
Metropolitan Characteristics
Size (population)
Income (GDP/capita)
Chapter 5: Findings
1. Descriptive statistics: Stay rate
Stay rate is the percentage of university graduates who currently live in the metropolitan
area where they graduated. The average 10-year stay rate of all 217 universities is 0.42. Some
universities have almost 0 stay rate, while some others have stay rates higher than 0.80.
Table 2 Descriptive Statistics: Stay Rate
Descriptive Statistics
N Minimum Maximum Mean Std. Deviation
Av.10-Year Stay
rate
217 .00 .87 .4212 .22467
Av. Annual
Change in Stay
rate
217 -.077 .025 -.01656 .010489
Valid N 217
17. 9
For most universities, stay rate declines as the number of years after graduation
increases. Seasoned cohorts tend to have lower stay rates than newer cohorts. The average
stay rate of students graduated in 2012 is 0.50, which is 15 percentage points higher than that
of students graduated 10 years ago (0.35). Stay rate declines by 1.66 percentage points each
year on average. The sharpest declination happens between year 3 and year 4 (-0.04).
Figure 1 Average Stay Rate over 10 Years for All Universities
2. University Characteristics and Stay Rate
Among the university characteristics examined, only university ranking is found to be
correlated with stay rate.
As is shown in table 3, stay rate is negatively correlated with top ranked (sig.=.01).
Correlational analysis for the middle ranked dummy is meaningless, because if university
ranking has a negative effect on stay rate, the stay rates of the middle ranked universities
0.00
0.10
0.20
0.30
0.40
0.50
0.60
1 2 3 4 5 6 7 8 9 10
Stayrate
Years after Graduation
Average Stay Rate over 10 Years
for All Universities
18. 10
should be greater than the top ranked universities but smaller than the lower ranked. Thus no
correlation can be observed. However, comparing the average stay rates of universities, we can
see a clear correlational trend. Universities ranking from 1 to 100 have an average stay rate of
0.34, comparing to that of 0.38 for universities ranking 101 to 200. Universities ranking below
200 have an average stay rate of 0.48 (Table 4).
Table 3 University Ranking and Stay Rate
Correlations
Stay Rate
Top ranked
(dummy)
Stay Rate Pearson Correlation 1 -.197**
Sig. (2-tailed) .004
N 217 217
Top ranked
(dummy)
Pearson Correlation -.197**
1
Sig. (2-tailed) .004
N 217 217
**. Correlation is significantatthe 0.01 level (2-tailed).
Table 4 University Ranking and Stay Rate (continued)
Report
Stay rate
University
Ranking Mean N Std. Deviation
Top ranked .3383 52 .19839
Middle ranked .3817 54 .20728
Other .4794 111 .22963
Total .4212 217 .22467
As is shown in table 5, 6, and 7, there is no obvious correlation between stay rate and
university type, ratio of graduate students, and net price.
19. 11
Table 5 University Type and Stay rate
Type Mean N Std. Deviation
4-year, primarilyassociate's,
Private not-for-profit
.3500 1 .
4-year, Private for-profit .1600 2 .11314
4-year, Private not-for-profit .4200 20 .21902
4-year, Public .4244 194 .22574
Total .4212 217 .22467
Table 6 Ratio of Graduate Students and Stay rate
Correlations
Stay rate
Ratio of Grad
Students
Stay rate Pearson Correlation 1 .095
Sig. (2-tailed) .161
N 217 217
Ratio of Grad
Students
Pearson Correlation .095 1
Sig. (2-tailed) .161
N 217 217
Table 7 Net Price and Stay rate
Correlations
Stay rate Net Price
Stay rate Pearson Correlation 1 -.065
Sig. (2-tailed) .341
N 217 217
Net Price Pearson Correlation -.065 1
Sig. (2-tailed) .341
N 217 217
20. 12
Different campus settings correspond to very different stay rates (Table 7). Universities
in larger cities and large suburbs have the highest stay rates (0.58, 0.52). Universities in Rural
areas and midsized suburbs have the lowest stay rates (0.18, 0.18). Because campus setting
seems to impact stay rate, location factor is considered in the following section.
Table 8 Campus Setting and Stay rate
Report
Stay rate
Campus setting Mean N Std. Deviation
City: Large .5766 59 .15258
City: Midsize .3929 42 .20940
City: Small .2725 52 .17854
Rural:Fringe .1775 4 .09946
Suburb:Large .5581 31 .20425
Suburb:Midsize .1767 6 .12094
Suburb:Small .5250 4 .22956
Town: Distant .2556 9 .20038
Town: Fringe .3100 3 .10440
Town: Remote .3314 7 .13171
Total .4212 217 .22467
3. Metropolitan Characteristics and Stay rate
Initial correlational analysis shows stay rate is positively correlated with both
metropolitan size ranking and metropolitan income ranking (Table 8). Nevertheless, further
examination shows metropolitan size and income are correlated, indicating that the two factors
may overlap with one another in their effect on stay rate.
Table 9 Metropolitan Characteristics and Stay rate
Correlations
21. 13
Stay Rate
Metropolitan
Size
Metropolitan
Income
Stay Rate Pearson Correlation 1 .594**
.504**
Sig. (2-tailed) .000 .000
N 217 217 217
Metropolitan
Size
Pearson Correlation .594**
1 .573**
Sig. (2-tailed) .000 .000
N 217 217 217
Metropolitan
Income
Pearson Correlation .504**
.573**
1
Sig. (2-tailed) .000 .000
N 217 217 217
**. Correlation is significantatthe 0.01 level (2-tailed).
4. Least Squares Regression Model
So far, the analysis above has suggested three variables to include in the regression
model: university ranking, metropolitan size, and metropolitan income. Because metropolitan
size and income are correlated, we include a multicollinearity test in the regression analysis.
Regression results show all factors are significant (sig. <.05) and multicollinearity is not a
major concern here (VIF<5) (Table 11). The model explains up to 48% of variation in stay rate
(R-Square=.477) (Table 10). University ranking is proved to have a negative effect on stay rate:
the top ranked universities are likely to have the lowest stay rates (-.164), while both the top
ranked and middle ranked universities tend to have lower stay rates than other universities
(-.164, -.059). Universities located in big metropolitan areas or high-income metropolitan areas
tend to have higher stay rates (Table 11).
Table 10 Model Summary and ANOVA Table
Model Summary
Model R R Square
Adjusted R
Square
Std. Error of the
Estimate
22. 14
1 .691a
.477 .467 .16397
a. Predictors:(Constant),Top ranked,Middle Ranked,Metropolitan
Size, Metropolitan Income
ANOVAa
Model Sum of Squares df Mean Square F Sig.
1 Regression 5.203 4 1.301 48.377 .000b
Residual 5.700 212 .027
Total 10.903 216
a. DependentVariable: Stay Rate
b. Predictors:(Constant), Top ranked,Middle Ranked,Metropolitan Size, Metropolitan Income
Table 11 Model: Coefficients
Coefficientsa
Model
Unstandardized
Coefficients
Standardized
Coefficients
t Sig.
Collinearity Statistics
B Std. Error Beta Tolerance VIF
1 (Constant) .044 .072 .615 .539
Top Ranked -.164 .028 -.310 -5.858 .000 .880 1.137
Middle
Ranked
-.059 .027 -.115 -2.173 .031 .886 1.129
Metropolitan
Size
1.825E-8 .000 .433 7.097 .000 .664 1.506
Metropolitan
Income
8.608E-6 .000 .294 4.796 .000 .658 1.519
a. DependentVariable: Stay Rate
The model:
Stay Rate = .044 -.164 * Top Ranked -.059 * Middle Ranked
+ 1.825E-8 * Metropolitan Size + 8.608E-6 * Metropolitan Income
23. 15
The standardized coefficients (Beta) show the relative effects of university ranking and
metropolitan characteristics (Table 10). The Beta table shows that metropolitan size is the most
influential factor among all factors (Beta=.433). Next to it is whether the university is top ranked
or not (Beta=-.310). Metropolitan Income is also influential
Chapter 6: Discussions
Like what Haapanen & Tervo (2012) find about Finnish graduates, the study finds a very
high average stay rate for graduates in the U.S. within 10 years of graduation. Two reasons may
explain why stay rate is high. The first reason has to do with the locations of universities. About
half of the universities in the sample are located in large cities or large suburbs (90 out of 217),
which have the highest stay rates compared with other universities (.58 for universities in large
cities, .56 for universities in large suburbs). The reason why large cities and large suburbs have
higher stay rates will be explained later in this chapter under metropolitan characteristics.
Another reason that leads to high stay rate is probably the “cumulative inertia” (Molho,
1995). Cumulative inertia refers to the effect that over time, people develop attachments to the
area of residence, as they get adapt to the area and their local social network develops (Molho,
1995). Friends and professional connections accumulated during university years lend
psychological and physical support to graduates and make life in the same metropolitan area
easier. Cumulative inertia may be particularly strong among recent graduates, since their social
resources just start to develop and their work experience just started to accumulate.
Over time, graduates’ discontent about current living condition accumulates; this
“cumulative stress” pressures graduates to relocate (Haapanen & Tervo, 2012). That explains
why despite of high average stay rate, stay rate declines over time. Cumulative stress is also
24. 16
observed in other studies. In a survey on graduates from the Pittsburgh-area universities,
researchers find that only 44 out of 985 graduates who currently live in the Pittsburgh area
actually prefer to live there (Hansen et al., 2003). The bifurcation in the graduates’ present and
preferred place of residence explains potential future migration. As the graduates gain more
work experience over time, their ability to migrate increases. Different from Haapanen & Tervo
(2012), the study finds no particularly sharp declination in stay rate during the 10 year period.
Although university ranking is found to have a negative effect on stay rate, a sampling
bias may render this conclusion less robust. Note the sample is composed of relatively large
universities (with more than 10,000 undergraduates); only half of the sampled universities have
a corresponding ranking on the U.S. News and World Report university rankings top 200 list.
The percentage is even smaller for the Times Higher Education Supplement world university
rankings (about one-third). Because of the sampling limitation, we could not use both ranking
systems to test the robustness of the conclusion.
Yet, if it is the case that the more prestigious universities tend to have lower stay rates,
the reason probably lies in the graduates’ higher human capital quality and more diversified
places of origin. High quality human capitals are more likely to move in general (Kodrzycki,
2001). Graduates who are more spatially mobile usually find better job-matches than those who
stay in the region of study (Hensen et al., 2009), and the income gain of leavers is likely to be
higher than stayers (Di Cintio and Grassi, 2013). Graduates from the more prestigious
universities probably leave the area of study for better economic opportunities. Besides, the
more prestigious universities have a larger portion of non-local students. Studies found students
who are studying at the home region are less likely to migrate than those studying away from
the home region (Faggian et al., 2007; Haapanen & Tervo, 2012).
As for metropolitan characteristics, the findings seem to support the idea that a large
labor market is the most important determinant for regions to retain graduates (Venhorst, Dijk,
25. 17
and Wissen, 2011). The reason why big metropolitan areas are more attractive to graduates is
that big metropolitan areas provide more job matching opportunities (Faggian, 2007), and they
are often growth centers where income levels are high. In addition, young graduates generally
prefer rich cultural and recreational amenities in large metropolitan areas (Whisler et al, 2008).
The findings also lend new evidence to Haapanen and Tervo (2012) that students who studied
at growth centers are less likely to migrate than graduates studying at peripheral areas.
Big Data: Strengths and Limitations
The big data from LinkedIn show several strengths and limitations. First, the data
provides answers to questions that are impossible to answer with conventional data. The
LinkedIn data is of previously unimaginable size and coverage. With LinkedIn, this research was
able to find alumni information for 217 universities nationwide for a 10-year period. Such
coverage is almost impossible using survey data.
More importantly, big data inspires new questions that have never been asked before
(Mayer-Schönberger & Cukier, 2013). The study was initially inspired by a random glance at the
alumni report on my LinkedIn page. I was surprised by the high percentage of UCLA alumni who
currently live in the Los Angeles Metropolitan Area. That was how I started to ask about stay
rate. As is mentioned before, few existing studies on U.S. graduate migration has asked this
question. The big data inspired the question and provided resource to answer them.
Despite of its strengths, the limitations of big data are also obvious. On top of them is
sampling bias. Although many university graduates have LinkedIn accounts, not everyone does.
To what extent can LinkedIn users represent the population is hard to tell. It is possible that
LinkedIn users networking more, thus their migration pattern might be slightly different. Because
big data is not complete data, such built-in sampling bias is hard to avoid.
26. 18
Accuracy is another issue, albeit less important. Some users do not update their profile
page, thus some information are not be accurate. However, this should not be a big concern,
since the sample is big and some errors will not affect main findings.
Perhaps a more urgent problem is the ambiguity in the definition of key concepts. For
this research, how LinkedIn defines “metropolitan area” determines which census data to
choose. By “metropolitan area,” does LinkedIn mean combined statistical area (CSA) or
metropolitan statistical area (MSA)? LinkedIn provides no direct answer. It was through trial-
and-error that I figured out the most possible method LinkedIn used to define the concept. Yet
there is still some chance that I was wrong. The ambiguity in key concepts adds to research
difficulty and uncertainty which, in the worst case, may overthrow the whole research.
Another limitation is the limited level of details. Comparing to survey data, big data
generated by LinkedIn is bigger but rougher. Because of that, this research has limited ability to
go into further details. For instance, graduates who continue their education in the area of study
will contribute to high stay rates. Because little is known about the level of degrees with the
data, I cannot conduct further analysis.
Finally there is the issue of accessibility. When the research started in 2013, the data on
LinkedIn was completely accessible. Sometime between April and May, 2014, LinkedIn started
blocking access to some of the statistics. Users could no longer retrieve data for alumni of a
specific year. Will big data be controlled and manipulated by agencies that generate them?
Some researchers have already expressed such concerns (Boyd and Crawford, 2012; Parks,
2014). Particularly, companies that generate the data may choose which data to reveal
depending on its commercial interest (Parks, 2014).
27. 19
Chapter 7: Conclusion
This research examines college-to-work migration of graduates in the United States
using big data from professional networking website LinkedIn, with a focus on how the ratio of
staying graduates changes over time and how universities affect the stay rate.
We learned that universities are sticky to graduates in general. Cumulative inertia
triggered from social network and professional connections developed during schooling years
function to retain a large portion of graduates in the metropolitan areas of graduation. The more
prestigious universities are less sticky because of their higher human capital quality, which
results in higher mobility.
We also learnt that time matters. Over time, cumulative stress together with increasing
work competency increases graduates propensity and ability to migrate. The migration trend
does not change much within 10 years after graduation.
Metropolitan size has a big impact on stay rate. Big metropolitan areas retain larger
portions of local graduates because of the abundant job matching opportunities they provide.
Like many other studies, we also found that income level positively affects stay rate.
Lastly, as an experiment using big data for academic research, the study revealed
several challenges of the method, including sampling bias, ambiguous concepts, limited level of
details and potential threats in access. Despite of its limitations, big data advantages in the
scale and scope of facts it covers, and the possibilities it provides to study new questions that
have never been asked before.
28. 20
Appendix 1: Obtain LinkedIn data
With the “network—find alumni” function, users could find the spatial distribution of
LinkedIn users graduated from a certain university. LinkedIn used to allow users to specify the
year of graduation in this search function, as is shown in the red oval below. However, around
late April to May, 2014, the function was discontinued.
LinkedIn “find alumni” search screenshot (approached in March, 2014)
As is shown above, LinkedIn told users the metropolitan areas where the alumni live
(Greater Los Angeles Area, San Francisco Bay Area, etc.). When a user registers a LinkedIn
account, he or she will input his or her zip code, and LinkedIn assign the user a metropolitan
area of living tag based on the user’s zip code. By trying different zip codes and see how
LinkedIn tagged them, I figured out the “metropolitan areas” LinkedIn used were most likely to
be a mixture of combined statistical areas (CSA) and metropolitan statistical areas (MSA).
Places with corresponding CSAs were likely to be tagged by the CSAs, and places with no
29. 21
corresponding CSA were likely to be tagged by the MSAs. For instance, San Jose was tagged
as the “San Francisco Bay Area,” which is consistent with the CSA definition. Under the MSA
definition, however, San Jose and San Francisco are two different metropolitan areas. Although
this rule seemed to work for most of the cases, there were some exceptions. For example,
Orange County was tagged as “Orange County” rather than “Greater Los Angeles Area,”
although under the CSA definition Orange County is part of the Los Angeles—Long Beach---
Riverside CSA. The bias originated from the definition problem still exists.
30. 22
Appendix 2: UniversityRanking Model Indicators
Source: U.S. News and World Report4
The indicators we use to capture academic quality fall into a number of categories:
assessment by administrators at peer institutions, retention of students, faculty resources,
student selectivity, financial resources, alumni giving, graduation rate performance and, for
National Universities and National Liberal Arts Colleges only, high school counselor ratings of
colleges.
The indicators include input measures that reflect a school's student body, its faculty and
its financial resources, along with outcome measures that signal how well the institution does its
job of educating students.
The measures, their weights in the ranking formula and an explanation of each follow.
Undergraduate academic reputation (22.5 percent): The U.S. News ranking formula gives
significant weight to the opinions of those in a position to judge a school's undergraduate
academic excellence. The academic peer assessment survey allows top academics –
presidents, provosts and deans of admissions – to account for intangibles at peer institutions
such as faculty dedication to teaching.
For their views on National Universities and National Liberal Arts Colleges, we also
surveyed 2,202 counselors at public high schools, each of which is a gold, silver or bronze
medal winner in the U.S. News rankings of Best High Schools, published in April 2013, and 400
college counselors at the largest independent schools. The counselors represent nearly every
state and the District of Columbia.
4 http://www.usnews.com/education/best-colleges/articles/2013/09/09/how-us-news-calculated-the-2014-
best-colleges-rankings?page=4. Last accessed on May 28, 2014
31. 23
Each person surveyed was asked to rate schools' academic programs on a scale from 1
(marginal) to 5 (distinguished). Those who didn't know enough about a school to evaluate it
fairly were asked to mark "don't know."
The score used in the rankings is the average score of those who rated the school on
the 5-point scale; "don't knows" are not counted as part of the average. In the case of National
Universities and National Liberal Arts Colleges, the academic peer assessment accounts for 15
percentage points of the weighting, and 7.5 percentage points go to the counselors' ratings.
For the second year in row, the two most recent years' survey results, from spring 2012 and
spring 2013, were averaged to compute the high school counselor reputation score. This was
done to increase the number of ratings each college received from the high school counselors
and to reduce the year-to-year volatility in the average counselor score.
The academic peer assessment score continues to be based only on the most recent
year's results. Both the Regional Universities and Regional Colleges rankings continue to rely
on one assessment score, by the academic peer group.
In order to reduce the impact of strategic voting by respondents, we eliminated the two
highest and two lowest scores each school received before calculating the average score. Ipsos
Public Affairs collected the data in spring 2013; of the 4,554 academics who were sent
questionnaires, 42 percent responded. The counselors' one-year response rate was 11 percent
for the spring 2013 surveys.
Retention (22.5 percent): The higher the proportion of freshmen who return to campus
for sophomore year and eventually graduate, the better a school is apt to be at offering the
classes and services that students need to succeed.
This measure has two components: six-year graduation rate (80 percent of the retention
score) and freshman retention rate (20 percent). The graduation rate indicates the average
proportion of a graduating class earning a degree in six years or less; we consider freshman
32. 24
classes that started from fall 2003 through fall 2006. Freshman retention indicates the average
proportion of freshmen who entered the school in the fall of 2008 through fall 2011 and returned
the following fall.
Faculty resources (20 percent): Research shows that the more satisfied students are
about their contact with professors, the more they will learn and the more likely they are to
graduate. We use six factors from the 2012-2013 academic year to assess a school's
commitment to instruction.
Class size has two components: the proportion of classes with fewer than 20 students
(30 percent of the faculty resources score) and the proportion with 50 or more students (10
percent of the score).
Faculty salary (35 percent) is the average faculty pay, plus benefits, during the 2011-
2012 and 2012-2013 academic years, adjusted for regional differences in the cost of living using
indexes from the consulting firm Runzheimer International. We also weigh the proportion of
professors with the highest degree in their fields (15 percent), the student-faculty ratio (5
percent) and the proportion of faculty who are full time (5 percent).
Student selectivity(12.5 percent): A school's academic atmosphere is determined in
part by the abilities and ambitions of the students.
We use three components: We factor in the admissions test scores for all enrollees who
took the Critical Reading and Math portions of the SAT and the Composite ACT score (65
percent of the selectivity score); the proportion of enrolled freshmen at National Universities and
National Liberal Arts Colleges who graduated in the top 10 percent of their high school classes
or in the top quarter at Regional Universities and Regional Colleges (25 percent); and the
acceptance rate, or the ratio of students admitted to applicants (10 percent).
33. 25
The data are all for the fall 2012 entering class. While the ranking calculation takes
account of both the SAT and ACT scores of all entering students, the table displays the score
range for whichever test was taken by most students.
Financial resources (10 percent): Generous per-student spending indicates that a
college can offer a wide variety of programs and services. U.S. News measures financial
resources by using the average spending per student on instruction, research, student services
and related educational expenditures in the 2011 and 2012 fiscal years. Spending on sports,
dorms and hospitals doesn't count.
Graduation rate performance (7.5 percent): This indicator of added value shows the
effect of the college's programs and policies on the graduation rate of students after controlling
for spending and student characteristics such as test scores and the proportion receiving Pell
Grants. We measure the difference between a school's six-year graduation rate for the class
that entered in 2006 and the rate we predicted for the class.
If the actual graduation rate is higher than the predicted rate, the college is enhancing
achievement.
Alumni giving rate (5 percent): This reflects the average percentage of living alumni
with bachelor's degrees who gave to their school during 2010-2011 and 2011-2012, an indirect
measure of student satisfaction.
To arrive at a school's rank, we first calculated the weighted sum of its scores. The final scores
were rescaled so that the top school in each category received a value of 100, and the other
schools' weighted scores were calculated as a proportion of that top score. Final scores were
rounded to the nearest whole number and ranked in descending order. Schools that are tied
appear in alphabetical order.
34. 26
Appendix 3: List of Universities
UniversityName U.S.
New
s
Ran
king
NO. of
LinkedIn
Users
Metropolita
n Area
Metropo
litan
Populati
on
Metro
polita
n
Incom
e
Stay
Rate
(10-
year
avg.)
Annua
l
Chang
e of
Stay
Rate
Type Campus
Setting
Grad
Studen
t Ratio
(cohort
year:
2006)
Net
Price
Harvard University 2 90389 Greater
Boston
7893376 54967 0.31 -0.022 4-year,
Private not-
for-profit
City:
Midsize
0.625 14445
Universityof
Pennsylvania
7 94690 Greater
Philadelphia
7067807 49831 0.31 -0.020 4-year,
Private not-
for-profit
City:
Large
0.528 21821
Cornell University 16 125564 Ithaca New
York
150900 37481 0.07 -0.014 4-year,
Private not-
for-profit
City:
Small
0.334 23684
Universityof
California-Berkeley
20 212816 San
Francisco
8153696 60603 0.56 -0.014 4-year,
Public
City:
Midsize
0.282 16178
Universityof
Virginia-Main
Campus
23 96877 Charlottevill
e Virginia
218705 40465 0.12 -0.013 4-year,
Public
City:
Small
0.338 12672
Universityof
SouthernCalifornia
23 161461 GreaterLos
Angeles
1787700
6
43008 0.52 -0.015 4-year,
Private not-
for-profit
City:
Large
0.542 27544
Universityof
California-Los
Angeles
23 201006 GreaterLos
Angeles
1787700
6
43008 0.60 -0.041 4-year,
Public
City:
Large
0.301 14857
Universityof
Michigan-AnnArbor
28 188113 Greater
Detroit
5318744 41276 0.30 -0.026 4-year,
Public
City:
Midsize
0.356 14490
35. 27
UniversityofNorth
Carolina at Chapel
Hill
30 111059 Raleigh-
Durham
North
Carolina
1912729 41445 0.35 -0.024 4-year,
Public
City:
Small
0.368 11092
NewYork University 32 181827 GreaterNYC
City
2307666
4
58119 0.69 -0.017 4-year,
Private not-
for-profit
City:
Large
0.495 37656
GeorgiaInstitute of
Technology-Main
Campus
36 93022 Greater
Atlanta
5910296 40046 0.47 -0.017 4-year,
Public
City:
Large
0.326 9116
PennsylvaniaState
University-Main
Campus
37 241380 State College
Pennsylvania
235632 38772 0.16 -0.034 4-year,
Public
City:
Small
0.144 22560
San Diego State
University
39 110398 GreaterSan
Diego
3095313 49719 0.28 0.013 4-year,
Public
City:
Large
0.157 9214
Universityof
California-Davis
39 107572 Sacramento
California
423895 44641 0.22 -0.018 4-year,
Public
Suburb:
Small
0.207 14877
Universityof
California-Santa
Barbara
41 99922 Santa
Barbara
897121 47862 0.15 -0.020 4-year,
Public
Suburb:
Midsize
0.135 13144
UniversityofIllinois
at Urbana-
Champaign
41 191078 Urbana-
Champaign
Illinois
231891 39086 0.13 -0.024 4-year,
Public
City:
Small
0.275 16495
Boston University 41 137053 Greater
Boston
7893376 54967 0.41 -0.012 4-year,
Private not-
for-profit
City:
Large
0.439 33172
UniversityofMiami 47 45514 Miami/Fort
Lauderdale
4244501 43958 0.40 -0.015 4-year,
Private not-
for-profit
Suburb:
Large
0.345 28656
Universityof
California-Irvine
49 84944 Orange
County
3010232 44498 0.34 -0.002 4-year,
Public
City:
Midsize
0.192 12856
36. 28
Northeastern
University
49 123284 Greater
Boston
7893376 54967 0.60 -0.011 4-year,
Private not-
for-profit
City:
Large
0.399 31821
UniversityofFlorida 49 169841 Gainesville
Florida
331806 36412 0.14 -0.023 4-year,
Public
City:
Midsize
0.343 13619
The Universityof
Texas at Austin
52 223645 AustinTexas 28417 42902 0.37 -0.018 4-year,
Public
City:
Large
0.234 15844
George Washington
University
52 100743 Washington
DC
5636232 57810 0.47 -0.021 4-year,
Private not-
for-profit
City:
Large
0.592 31443
Universityof
Washington-Seattle
Campus
52 177742 Greater
Seattle
4274767 51058 0.69 -0.014 4-year,
Public
City:
Large
0.322 9395
Ohio State
University-Main
Campus
52 202245 Columbus
Ohio
107841 41156 0.44 -0.019 4-year,
Public
City:
Large
0.236 19998
Universityof
Connecticut
57 82444 Hartford
Connecticut
1486436 53389 0.27 -0.011 4-year,
Public
Suburb:
Large
0.312 16357
Universityof
Georgia
60 108792 Athens
Georgia
5910296 40046 0.14 -0.022 4-year,
Public
City:
Midsize
0.239 12674
Universityof
Maryland-College
Park
62 168735 Washington
DC
5636232 57810 0.48 -0.017 4-year,
Public
Suburb:
Large
0.288 14402
Universityof
Pittsburgh-
Pittsburgh Campus
62 99505 Greater
Pittsburgh
2356285 46458 0.46 -0.021 4-year,
Public
City:
Large
0.359 21641
Syracuse University 62 97246 Syracuse
NewYork
742603 41285 0.14 -0.015 4-year,
Private not-
for-profit
City:
Midsize
0.296 28419
Brigham Young
University-Provo
62 131406 ProvoUtah 526810 36745 0.29 -0.028 4-year,
Private not-
for-profit
City:
Midsize
0.097 11565
37. 29
ClemsonUniversity 62 62951 Greenville
South
Carolina
1362073 34434 0.28 -0.019 4-year,
Public
Suburb:
Large
0.203 16251
Purdue University-
Main Campus
68 173031 Lafayette
Indiana
235013 33870 0.13 -0.022 4-year,
Public
Suburb:
Midsize
0.226 12969
Texas A & M
University-College
Station
69 178720 Bryan/Colleg
e Station
Texas
228660 31788 0.12 -0.019 4-year,
Public
City:
Small
0.208 12417
Rutgers University-
NewBrunswick
69 158414 GreaterNYC
City
2307666
4
58119 0.71 -0.012 4-year,
Public
City:
Small
0.219 15922
Universityof
Minnesota-Twin
Cities
69 174621 Greater
Minneapolis-
St. Paul
3684928 49191 0.65 -0.016 4-year,
Public
City:
Large
0.335 14516
UniversityofIowa 73 86585 IowaCity
Iowa
152586 44542 0.16 -0.023 4-year,
Public
City:
Small
0.270 14928
MichiganState
University
73 194555 Lansing
Michigan
534684 34857 0.18 -0.027 4-year,
Public
City:
Small
0.234 13836
Baylor University 75 44408 Waco Texas 252772 34657 0.10 -0.012 4-year,
Private not-
for-profit
City:
Midsize
0.159 28055
Universityof
Delaware
75 71550 Greater
Philadelphia
7067807 49831 0.39 -0.009 4-year,
Public
Suburb:
Large
0.167 14748
Miami University-
Oxford
75 94765 Cincinnati
Area
2114580 43186 0.26 -0.009 4-year,
Public
Town:
Fringe
0.147 24674
Indiana University-
Bloomington
75 153469 Bloomington
Indiana
205683 32830 0.12 -0.020 4-year,
Public
City:
Small
0.232 10899
Universityof
Vermont
82 43403 Burlington
Vermont
211261 32929 0.28 -0.016 4-year,
Public
City:
Small
0.144 15498
The Universityof
Alabama
86 73808 Tuscaloosa
Alabama
230162 34870 0.16 -0.019 4-year,
Public
City:
Small
0.163 18462
Universityof
California-SantaCruz
86 58679 San
Francisco
8153696 60603 0.61 -0.015 4-year,
Public
City:
Small
0.082 15443
38. 30
Universityof
Colorado Boulder
86 120503 Greater
Denver
3090874 49623 0.50 -0.022 4-year,
Public
City:
Small
0.188 19991
FloridaState
University
91 118704 Tallahassee
Florida
395255 37038 0.17 -0.020 4-year,
Public
City:
Midsize
0.209 15031
Auburn University 91 82222 Auburn
Alabama
140247 35965 0.13 -0.021 4-year,
Public
City:
Small
0.197 15092
Universityof
Massachusetts
Amherst
91 103130 Springfield
Massachuset
ts
621570 33420 0.14 -0.015 4-year,
Public
Suburb:
Large
0.223 18156
UniversityofNew
Hampshire-Main
Campus
97 49881 Greater
Boston
7893376 54967 0.67 -0.017 4-year,
Public
Suburb:
Small
0.161 21424
Drexel University 97 67599 Greater
Philadelphia
7067807 49831 0.58 -0.001 4-year,
Private not-
for-profit
City:
Large
0.377 35948
Universityof
Missouri-Columbia
97 96966 Columbia
Missouri
213585 38049 0.18 -0.022 4-year,
Public
City:
Midsize
0.223 16505
Iowa State
University
101 91542 DesMoines
Iowa
722323 45876 0.32 -0.020 4-year,
Public
City:
Small
0.169 13400
Saint Louis
University-Main
Campus
101 33912 GreaterSt.
Louis
2892497 44153 0.54 -0.009 4-year,
Private not-
for-profit
City:
Large
0.291 33572
Oklahoma State
University-Main
Campus
101 77744 Oklahoma
City
Oklahoma
1322429 42924 0.29 -0.019 4-year,
Public
Town:
Distant
0.209 13994
Universityof
Nebraska-Lincoln
101 71289 Lincoln
Nebraska
302157 41696 0.30 -0.024 4-year,
Public
City:
Large
0.211 13890
North Carolina State
Universityat Raleigh
101 104883 Raleigh-
Durham
North
Carolina
1912729 41445 0.50 -0.021 4-year,
Public
City:
Large
0.277 11208
The Universityof
Tennessee
101 122031 Knoxville
Tennessee
1077073 36400 0.32 -0.024 4-year,
Public
City:
Midsize
0.299 15298
39. 31
UniversityofOregon 109 71935 Eugene
Oregon
351715 35941 0.20 -0.019 4-year,
Public
City:
Midsize
0.151 15403
Universityof
California-Riverside
112 40602 GreaterLos
Angeles
1787700
6
43008 0.57 -0.021 4-year,
Public
City:
Large
0.115 11484
UniversityofSouth
Carolina-Columbia
112 73336 Columbia
South
Carolina
767598 36405 0.31 -0.014 4-year,
Public
City:
Midsize
0.253 16672
Universityof
Kentucky
119 75876 Lexington
Kentucky
687173 37391 0.34 -0.020 4-year,
Public
City:
Large
0.257 14390
UniversityofArizona 119 111680 Tucson
Arizona
1027683 35954 0.25 -0.022 4-year,
Public
City:
Large
0.215 13485
Colorado State
University-Fort
Collins
121 107229 Fort Collins
Colorado
299630 41311 0.23 -0.026 4-year,
Public
City:
Midsize
0.242 12230
Temple University 121 98702 Greater
Philadelphia
7067807 49831 0.62 -0.018 4-year,
Public
City:
Large
0.250 21012
DePaul University 121 89106 Greater
Chicago
9840929 47831 0.77 -0.009 4-year,
Private not-
for-profit
City:
Large
0.339 27561
UniversityofUtah 121 78544 GreaterSalt
Lake City
2271696 36745 0.62 -0.020 4-year,
Public
City:
Midsize
0.233 11246
UniversityofIllinois
at Chicago
128 87914 Greater
Chicago
9840929 47831 0.75 -0.011 4-year,
Public
City:
Large
0.402 11932
State universityof
NewYork at Albany
128 64522 AlbanyNew
York
870716 45757 0.34 -0.026 4-year,
Public
City:
Small
0.256 13692
Universityof
Arkansas
128 52363 Fayetteville
Arkansas
463204 38632 0.40 -0.015 4-year,
Public
City:
Small
0.171 11496
WashingtonState
University
128 71644 Spokane
Washington
527753 36441 0.13 -0.014 4-year,
Public
Town:
Distant
0.164 16327
Louisiana State
Universityand
Agricultural &
Mechanical College
135 50356 Baton Rouge 802484 40245 0.32 -0.015 4-year,
Public
Rural:
Fringe
0.185 11676
40. 32
Ohio University-
Main Campus
135 86040 AthensOhio 64757 33073 0.00 0.000 4-year,
Public
Town:
Distant
0.172 18356
Arkansas State
University-Main
Campus
135 18424 Jonesboro
Arkansas
163116 33516 0.34 -0.017 4-year,
Public
City:
Small
0.267 8708
George Mason
University
141 82996 Washington
DC
5636232 57810 0.76 -0.012 4-year,
Public
Suburb:
Large
0.373 14709
Arizona State
University
142 188226 Phoenix
Arizona
4192887 38006 0.54 -0.016 4-year,
Public
City:
Midsize
0.191 12369
Mississippi State
University
142 37768 Tuscaloosa
Alabama
230162 34870 0.16 -0.022 4-year,
Public
Rural:
Fringe
0.195 14708
Oregon State
University
142 67417 Corvallis
Oregon
85579 39880 0.14 -0.023 4-year,
Public
City:
Small
0.173 15950
The Universityof
Texas at Dallas
142 44736 Dallas/Fort
Worth
6817483 45568 0.71 -0.012 4-year,
Public
City:
Midsize
0.390 7111
Universityof
Mississippi
150 32398 Greater
Memphis
1353087 40008 0.26 -0.016 4-year,
Public
Town:
Remote
0.145 12640
UniversityofRhode
Island
152 44326 Providence
Rhode Island
2921408 54967 0.40 -0.018 4-year,
Public
Suburb:
Large
0.187 16297
IllinoisState
University
152 73528 Bloomington
/Normal
Illinois
186133 43466 0.16 0.010 4-year,
Public
Suburb:
Midsize
0.118 16293
UniversityofHawaii
at Manoa
158 37731 Hawaiian
Islands
1360301 52017 0.50 -0.029 4-year,
Public
City:
Large
0.283 11562
Universityof
Maryland-Baltimore
County
158 30843 Baltimore
Maryland
2710489 57810 0.48 -0.015 4-year,
Public
Suburb:
Large
0.197 13937
Universityof
Wyoming
161 25659 Cheyenne
Wyoming
91738 50755 0.24 -0.023 4-year,
Public
Town:
Remote
0.210 11203
Universityof
Louisville
161 46304 Louisville
Kentucky
1459911 40401 0.63 -0.012 4-year,
Public
City:
Large
0.260 12990
Texas Tech
University
161 86665 Lubbock
Texas
313740 36703 0.17 -0.023 4-year,
Public
City:
Midsize
0.184 12982
41. 33
Virginia
Commonwealth
University
167 58936 Richmond
Virginia
1208101 32528 0.47 -0.014 4-year,
Public
City:
Midsize
0.248 15838
UniversityofSouth
Florida-Main
Campus
170 94834 Tampa/St.
Petersburg
Florida
2783243 40862 0.52 -0.018 4-year,
Public
City:
Large
0.243 13222
WestVirginia
University
170 67810 Greater
Pittsburgh
2356285 46458 0.28 -0.018 4-year,
Public
City:
Small
0.232 9100
UniversityofCentral
Florida
170 102551 Orlando
Florida
2818120 36007 0.46 -0.020 4-year,
Public
Suburb:
Large
0.144 13489
Northern Illinois
University
177 83041 Greater
Chicago
9840929 47831 0.73 -0.013 4-year,
Public
Suburb:
Small
0.243 18552
SouthernIllinois
University
Carbondale
177 81290 GreaterSt.
Louis
2892497 44153 0.23 -0.020 4-year,
Public
City:
Small
0.250 13537
Indiana Universityof
Pennsylvania-Main
Campus
177 37861 Johnstown
Pennsylvania
221421 35148 0.13 -0.018 4-year,
Public
Town:
Distant
0.149 16344
Ball State University 181 61097 Muncie
Indiana
117671 32318 0.12 -0.018 4-year,
Public
City:
Small
0.209 12622
Universityof
Nevada-Reno
181 29626 RenoNevada 579668 42955 0.49 -0.021 4-year,
Public
City:
Midsize
0.173 15033
BowlingGreenState
University-Main
Campus
181 68429 ToledoOhio 651429 37925 0.24 -0.026 4-year,
Public
Town:
Fringe
0.143 16618
UniversityofNew
Mexico-Main
Campus
181 44112 Albuquerque
NewMexico
1146049 37194 0.51 -0.032 4-year,
Public
City:
Large
0.216 11001
WesternMichigan
University
181 74893 Kalamazoo
Michigan
524030 35975 0.23 -0.030 4-year,
Public
City:
Small
0.208 15610
East Carolina
University
181 51714 Greenville
North
Carolina
215907 35449 0.24 -0.002 4-year,
Public
City:
Small
0.210 11112
42. 34
Utah State
University
190 42640 Logan Utah 125442 29243 0.00 0.000 4-year,
Public
City:
Small
0.116 11049
Universityof
Houston
190 111422 Houston
Texas
6114562 50490 0.76 -0.014 4-year,
Public
City:
Large
0.196 12262
Universityof
Colorado Denver
190 44272 Greater
Denver
3090874 49623 0.72 -0.011 4-year,
Public
City:
Large
0.415 16003
UniversityofNorth
Carolina at
Greensboro
190 34284 Greensboro/
Winston-
SalemNorth
Carolina
1589200 36471 0.45 -0.022 4-year,
Public
City:
Large
0.188 9628
Central Michigan
University
190 83604 Saginaw
Michigan
391569 36199 0.15 -0.021 4-year,
Public
Town:
Distant
0.228 12668
NewMexicoState
University-Main
Campus
190 32028 Las Cruces
NewMexico
1013356 30325 0.27 -0.033 4-year,
Public
Suburb:
Midsize
0.191 11107
Universityof
Missouri-KansasCity
201 30397 KansasCity
Missouri
2343008 43373 0.67 -0.018 4-year,
Public
City:
Large
0.336 20509
South Dakota State
University
201 17910 Sioux Falls
South
Dakota
228261 41746 0.44 -0.020 4-year,
Public
Town:
Remote
0.116 13753
UniversityofNorth
Carolina at Charlotte
201 51453 Charlotte
North
Carolina
2217012 39965 0.62 -0.017 4-year,
Public
City:
Large
0.193 11002
Kent State
Universityat Kent
201 192 Cleveland/Ak
ron Ohio
3515646 32727 0.47 -0.012 4-year,
Public
Suburb:
Large
0.216 18663
CaliforniaState University-
San Bernardino
18624 San
Bernardino
4224851 31900 0.00 0.000 4-year,
Public
City:
Midsize
0.120 7113
Grand Canyon
University
26703 Phoenix
Arizona
4192887 38006 0.24 0.025 4-year,
Private for-
profit
City:
Large
0.360 17220
Universityof
California-SanDiego
100690 GreaterSan
Diego
3095313 49719 0.40 -0.022 4-year,
Public
City:
Large
0.199 13408
43. 35
CaliforniaState
University-Fullerton
83913 Orange
County
3010232 44498 0.49 -0.012 4-year,
Public
Suburb:
Large
0.141 7125
The Universityof
Texas at San Antonio
44569 San Antonio
Texas
2142508 39019 0.57 -0.010 4-year,
Public
City:
Large
0.148 11828
FloridaAtlantic
University
58293 WestPalm
Beach
1320134 44222 0.29 -0.012 4-year,
Public
City:
Small
0.163 11838
FloridaGulfCoast
University
11015 Fort Myers
Florida
940274 43169 0.33 -0.009 4-year,
Public
Suburb:
Large
0.090 12648
Southeastern
Louisiana University
17822 Baton Rouge 802484 40245 0.40 -0.011 4-year,
Public
City:
Small
0.087 9055
The Universityof
WestFlorida
20383 Pensacola
Florida
448991 37538 0.37 -0.027 4-year,
Public
City:
Small
0.182 10050
UniversityofAlaska
Anchorage
15450 Anchorage
Alaska
380821 52360 0.59 -0.034 4-year,
Public
City:
Large
0.057 8943
Troy University 35413 Montgomery
Alabama
374536 37905 0.09 -0.077 4-year,
Public
Rural:
Fringe
0.206 10193
Universityof
Minnesota-Duluth
27631 Duluth
Minnesota
279771 38171 0.19 -0.020 4-year,
Public
City:
Small
0.100 15718
UniversityofNorth Carolina
Wilmington
26711 Wilmington
North
Carolina
254884 51519 0.28 -0.018 4-year,
Public
City:
Midsize
0.098 11502
Liberty University 48003 Lynchburg
Virginia
252634 35243 0.12 0.000 4-year,
Private not-
for-profit
City:
Small
0.380 22798
State universityof New
York at Binghamton
46826 Binghamton
NewYork
251725 38365 0.00 0.000 4-year,
Public
Suburb:
Midsize
0.193 14776
VirginiaPolytechnic
Institute and State
University
110785 Blacksburg 178237 31460 0.00 0.000 4-year,
Public
City:
Small
0.233 17375
Indiana State
University
28080 Terre Haute
Indiana
172425 33473 0.24 0.000 4-year,
Public
City:
Small
0.168 11183
Universityof
Northern Iowa
34587 Waterloo
Iowa
167819 41339 0.23 -0.028 4-year,
Public
City:
Small
0.132 13778
44. 36
Universityof
SouthernMississippi
31834 Hattiesburg
Mississippi
142842 32567 0.22 -0.023 4-year,
Public
City:
Small
0.171 11911
Northern Arizona
University
46252 Flagstaff
Arizona
134421 34820 0.14 -0.014 4-year,
Public
City:
Small
0.162 15090
UniversityofKansas 95944 Lawrence
Kansas
110826 36331 0.12 -0.019 4-year,
Public
City:
Small
0.294 16326
The Universityof
Montana
24347 Missoula
Montana
109299 36584 0.30 -0.016 4-year,
Public
City:
Small
0.153 13345
UniversityofNorth
Dakota
27667 Grand Folks 98461 43916 0.19 -0.023 4-year,
Public
City:
Small
0.216 16333
Idaho State
University
18513 Pocatello
Idaho
82839 29972 0.47 -0.026 4-year,
Public
City:
Small
0.141 12328
Texas State
University-San
Marcos
75024 AustinTexas 28417 42902 0.48 -0.020 4-year,
Public
Suburb:
Small
0.139 10505
CaliforniaState
University-EastBay
18741 San
Francisco
8153696 60603 0.83 -0.012 4-year,
Public
City:
Midsize
0.165 10606
San Francisco State
University
104417 San
Francisco
8153696 60603 0.76 -0.014 4-year,
Public
City:
Large
0.133 11246
Stony Brook
University
58572 GreaterNYC
City
2307666
4
58119 0.76 -0.011 4-year,
Public
Suburb:
Large
0.339 12700
City College ofNewYork-
Hunter College
42500 GreaterNYC
City
2307666
4
58119 0.83 -0.016 4-year,
Public
City:
Large
0.274 7260
St. John'sUniversity-
NewYork
4256 GreaterNYC
City
2307666
4
58119 0.76 -0.002 4-year,
Private not-
for-profit
City:
Large
0.249 27874
Montclair State
University
43987 GreaterNYC
City
2307666
4
58119 0.86 -0.011 4-year,
Public
Suburb:
Large
0.215 13043
Kean University 26962 GreaterNYC
City
2307666
4
58119 0.87 -0.013 4-year,
Public
Suburb:
Large
0.162 18021
WilliamPatersonUniversity
of NewJersey
25619 GreaterNYC
City
2307666
4
58119 0.86 -0.014 4-year,
Public
Suburb:
Large
0.117 12358
45. 37
UniversityofMaryland-
UniversityCollege
70297 Washington
DC
5636232 57810 0.42 -0.011 4-year,
Public
Suburb:
Large
0.331 10913
Towson University 52926 Baltimore
Maryland
2710489 57810 0.57 -0.012 4-year,
Public
City:
Small
0.181 13566
SouthernNew
Hampshire
University
29649 Greater
Boston
7893376 54967 0.67 -0.007 4-year,
Private not-
for-profit
City:
Midsize
0.363 24652
Universityof
Massachusetts-
Lowell
44008 Greater
Boston
7893376 54967 0.79 -0.010 4-year,
Public
Suburb:
Large
0.246 13211
Universityof
Massachusetts-
Boston
37933 Greater
Boston
7893376 54967 0.76 -0.015 4-year,
Public
City:
Large
0.236 10940
Sam Houston State
University
38378 Houston
Texas
6114562 50490 0.65 -0.009 4-year,
Public
Town:
Distant
0.154 9516
Rowan University 26191 Greater
Philadelphia
7067807 49831 0.58 -0.003 4-year,
Public
Suburb:
Large
0.120 17131
Universityof
Northern Colorado
33284 Greater
Denver
3090874 49623 0.59 -0.009 4-year,
Public
City:
Small
0.211 12982
MinnesotaState
University-Mankato
40517 Greater
Minneapolis-
St. Paul
3684928 49191 0.70 -0.008 4-year,
Public
City:
Small
0.125 12526
North Dakota State
University-MainCampus
27545 Fargo North
Dakota
231674 47034 0.33 -0.024 4-year,
Public
City:
Midsize
0.170 14227
Universityof
Nebraska at Omaha
35776 Greater
Omaha
902041 46351 0.69 -0.017 4-year,
Public
City:
Large
0.179 10755
The Universityof
Texas at Arlington
75614 Dallas/Fort
Worth
6817483 45568 0.69 -0.016 4-year,
Public
City:
Large
0.225 10079
UniversityofNorth
Texas
100706 Dallas/Fort
Worth
6817483 45568 0.70 -0.015 4-year,
Public
City:
Midsize
0.194 10345
Tarleton State
University
14671 Dallas/Fort
Worth
6817483 45568 0.50 -0.016 4-year,
Public
Town:
Remote
0.163 15464
46. 38
WesternIllinois
University
39706 Peoria
Illinois
379186 45401 0.13 0.010 4-year,
Public
Town:
Remote
0.159 15088
Universityof
Wisconsin-Madison
163639 Madison
Wisconsin
827742 45042 0.26 -0.024 4-year,
Public
City:
Midsize
0.283 15317
Universityof
Wisconsin-
Milwaukee
69785 Greater
Milwaukee
2025989 45032 0.61 -0.015 4-year,
Public
City:
Large
0.172 14469
WesternKentucky
University
32305 Greater
Nashville
1788434 44201 0.39 -0.015 4-year,
Public
City:
Small
0.143 12128
Middle Tennessee
State University
45065 Greater
Nashville
1788434 44201 0.66 -0.019 4-year,
Public
City:
Midsize
0.119 8855
Universityof
Missouri-StLouis
33107 GreaterSt.
Louis
2892497 44153 0.77 -0.012 4-year,
Public
Suburb:
Large
0.202 14536
SouthernIllinoisUniversity
Edwardsville
29712 GreaterSt.
Louis
2892497 44153 0.66 -0.009 4-year,
Public
Suburb:
Large
0.193 14294
CaliforniaState
University-
Sacramento
72031 Sacramento
California
2414783 44099 0.58 -0.015 4-year,
Public
City:
Large
0.102 8859
FloridaInternational
University
73934 Miami/Fort
Lauderdale
4244501 43958 0.72 -0.015 4-year,
Public
Suburb:
Large
0.188 11933
KeiserUniversity-Ft
Lauderdale
3735 Miami/Fort
Lauderdale
4244501 43958 0.35 0.017 4-year,
primarily
associate's,
Private not-
for-profit
City:
Midsize
0.052 21682
Old Dominion
University
48197 Norfolk
Virginia
1779243 43824 0.50 -0.045 4-year,
Public
City:
Midsize
0.205 11775
Kaplan University-
Davenport Campus
5503 Davenport
Iowa
471551 43295 0.08 0.017 4-year,
Private for-
profit
City:
Midsize
0.221 13963
RochesterInstitute
of Technology
71990 Rochester
NewYork
1079671 43133 0.32 -0.020 4-year,
Private not-
for-profit
Suburb:
Large
0.162 26519
47. 39
CaliforniaState
University-Los
Angeles
36282 GreaterLos
Angeles
1787700
6
43008 0.79 -0.014 4-year,
Public
City:
Large
0.168 3713
Universityof
California-Los
Angeles
201006 GreaterLos
Angeles
1787700
6
43008 0.60 -0.041 4-year,
Public
City:
Large
0.301 14857
CaliforniaState
University-Long
Beach
83706 GreaterLos
Angeles
1787700
6
43008 0.52 -0.016 4-year,
Public
City:
Large
0.144 8466
CaliforniaState
University-
Northridge
93659 GreaterLos
Angeles
1787700
6
43008 0.80 -0.014 4-year,
Public
City:
Large
0.131 10458
CaliforniaState Polytechnic
University-Pomona
60697 GreaterLos
Angeles
1787700
6
43008 0.65 -0.015 4-year,
Public
Suburb:
Large
0.073 9707
UniversityofOklahoma
Norman Campus
73925 Oklahoma
City
Oklahoma
1322429 42924 0.35 -0.020 4-year,
Public
Suburb:
Midsize
0.233 16280
Universityat Buffalo 79090 Buffalo/Niag
ara
1135509 42413 0.38 -0.021 4-year,
Public
Suburb:
Large
0.326 13109
Kansas State
University
69420 Manhattan
Kansas
127081 42223 0.00 0.000 4-year,
Public
City:
Small
0.186 14639
Universityof
Wisconsin-Oshkosh
27579 Oshkosh
Wisconsin
392660 41277 0.40 -0.024 4-year,
Public
City:
Small
0.084 11554
Wayne State
University
79958 Greater
Detroit
5318744 41276 0.73 -0.025 4-year,
Public
City:
Large
0.332 11973
Eastern Michigan
University
61837 Greater
Detroit
5318744 41276 0.67 -0.023 4-year,
Public
Suburb:
Large
0.195 13240
Oakland University 44982 Greater
Detroit
5318744 41276 0.79 -0.020 4-year,
Public
Suburb:
Large
0.180 13305
Indiana Wesleyan
University
30344 Indianapolis
Indiana
1887877 41236 0.33 0.015 4-year,
Private not-
for-profit
Town:
Distant
0.287 22928
48. 40
Indiana University-Purdue
University-Indianapolis
41410 Indianapolis
Indiana
1887877 41236 0.68 -0.012 4-year,
Public
City:
Large
0.269 12442
Portland State
University
59167 Portland
Oregon
2921408 41139 0.72 -0.014 4-year,
Public
City:
Large
0.195 12335
UniversityofNorth
Florida
26958 Jacksonville
Florida
1470473 40955 0.61 -0.018 4-year,
Public
City:
Large
0.111 11135
WichitaState
University
33593 Wichita
Kansas
667230 40928 0.58 -0.029 4-year,
Public
City:
Large
0.180 8645
Universityof
Alabama at
Birmingham
34094 Birmingham
Alabama
1302283 40537 0.55 -0.018 4-year,
Public
City:
Midsize
0.373 14296
GeorgiaState
University
79060 Greater
Atlanta
5910296 40046 0.77 -0.016 4-year,
Public
City:
Large
0.232 14290
GeorgiaSouthern
University
34468 Greater
Atlanta
5910296 40046 0.43 0.004 4-year,
Public
Town:
Remote
0.125 15866
KennesawState
University
38062 Greater
Atlanta
5910296 40046 0.82 -0.012 4-year,
Public
Suburb:
Large
0.078 14742
Universityof
Memphis
48152 Greater
Memphis
1353087 40008 0.64 -0.023 4-year,
Public
City:
Large
0.203 11237
Universityof
Arkansas at Little
Rock
17355 Little Rock
Arkansas
877091 39761 0.65 -0.019 4-year,
Public
City:
Midsize
0.199 9872
StephenF Austin
State University
32899 TylerTexas 260559 39281 0.14 -0.015 4-year,
Public
Rural:
Fringe
0.131 13097
WrightState
University-Main
Campus
42217 DaytonOhio 1080044 38796 0.50 -0.031 4-year,
Public
Suburb:
Large
0.217 17090
Universityof
Wisconsin-EauClaire
30270 Eau Claire
Wisconsin
205008 38366 0.18 -0.025 4-year,
Public
City:
Small
0.049 12204
UniversityofToledo 49404 ToledoOhio 651429 37925 0.38 -0.027 4-year,
Public
City:
Large
0.215 13298
Eastern Kentucky
University
25882 Lexington
Kentucky
687173 37391 0.46 -0.015 4-year,
Public
Town:
Distant
0.127 12073
49. 41
Valdosta State
University
17659 Tallahassee
Florida
395255 37038 0.19 -0.012 4-year,
Public
City:
Small
0.178 14147
FloridaAgricultural and
Mechanical University
23565 Tallahassee
Florida
395255 37038 0.21 -0.036 4-year,
Public
City:
Midsize
0.166 10683
Eastern Washington
University
23365 Spokane
Washington
527753 36441 0.43 -0.018 4-year,
Public
Town:
Fringe
0.097 11499
Universityof
Nevada-LasVegas
44004 Las Vegas
Nevada
2195401 35764 0.58 -0.026 4-year,
Public
City:
Midsize
0.181 10038
Grand ValleyState
University
47170 Greater
Grand
Rapids
Michigan
988938 35720 0.53 -0.009 4-year,
Public
Suburb:
Large
0.135 15390
FerrisState
University
36582 Greater
Grand
Rapids
Michigan
988938 35720 0.32 -0.022 4-year,
Public
Town:
Remote
0.087 13235
Boise State
University
36990 Boise Idaho 697535 34874 0.65 -0.013 4-year,
Public
City:
Midsize
0.128 13790
East Tennessee State
University
22437 JohnsonCity
Tennessee
508260 34820 0.45 -0.022 4-year,
Public
City:
Small
0.189 14688
YoungstownState
University
26573 Youngstown
Ohio
673614 34736 0.46 -0.037 4-year,
Public
City:
Small
0.085 11459
James Madison
University
53583 Harrisonburg
Virginia
243730 34727 0.00 0.000 4-year,
Public
City:
Small
0.091 14029
UniversityofSouth
Alabama
21483 Mobile
Alabama
595257 34594 0.47 -0.026 4-year,
Public
City:
Midsize
0.227 10108
The UniversityofTennessee
at Chattanooga
19294 Chattanooga
Tennessee
923460 34412 0.54 -0.012 4-year,
Public
City:
Midsize
0.129 12390
Universityof
Louisiana at
Lafayette
27436 Lafayette
Indiana
235013 33870 0.52 -0.025 4-year,
Public
City:
Midsize
0.093 5891
CaliforniaState
University-Fresno
34618 Fresno 1081315 33672 0.48 -0.022 4-year,
Public
City:
Large
0.126 5894
50. 42
Missouri State
University-
Springfield
45503 Springfield
Missouri
436712 33420 0.33 -0.021 4-year,
Public
City:
Midsize
0.155 13107
ClevelandState
University
49184 Cleveland/Ak
ron Ohio
3515646 32727 0.76 -0.020 4-year,
Public
City:
Large
0.317 16372
UniversityofAkron
Main Campus
60155 Cleveland/Ak
ron Ohio
3515646 32727 0.61 -0.018 4-year,
Public
City:
Midsize
0.168 15894
Appalachian State
University
44983 Hickory/Len
oir North
Carolina
410493 31755 0.16 -0.020 4-year,
Public
Town:
Distant
0.107 8874
The Universityof
Texas at El Paso
24303 El PasoTexas 1013356 30325 0.52 -0.032 4-year,
Public
City:
Large
0.155 5164
The Universityof
Texas-PanAmerican
10103 McAllen
Texas
835737 22220 0.52 -0.026 4-year,
Public
City:
Small
0.142 2394
** Net Price is Average Net Price for 2011-2012 generated for full-time beginning undergraduate students who were awarded grant or scholarship
aid from federal, state or local governments, or the institution. For public institutions only students paying the in-state or in-district rate are
included. For institutions that charge students by program, net price is generated for the institution’s largest program.
51. 43
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