IES Blog

Institute of Education Sciences

Celebrating 150 Years of Education Data

Statistics paint a portrait of our Nation. They provide important information that can help track progress and show areas that need attention. Beginning with the first Census in 1790, federal statistics have been used to allocate representation in Congress. Labor statistics have been gathered since the middle of the 19th century. And since 1870, the federal government has collected statistics on the condition and progress of American education.

One of the early Commissioners, John Eaton, lamented in his 1875 report to Congress that, “When the work of collecting educational statistics was begun by the Office, it was found that there was no authentic list of the colleges in the United States, or of academies, or normal schools, or schools of science, law, or medicine, or of any other class of educational institutions.” In the beginning, data were collected on basic items such as public school enrollment and attendance, teachers and their salaries, high school graduates, and expenditures. Over the years, the level of detail gradually has increased to address the needs of policy makers and the public. For example, data collections were expanded after WWII to provide more information on the growth of postsecondary education resulting from the Servicemen’s Readjustment Act, also known as the GI Bill.

Patterns of enrollment change help to illustrate the growth in the nation’s education system. In 1900, relatively few students ever attended high school or college.  Of the 17.1 million students in 1900, only about 0.6 million, 4 percent of students, were enrolled in grades 9 through 12 and 0.2 million, 1 percent of students, were enrolled in postsecondary education.  During the first half of the 20th century, high school became a key part of the educational experience for most Americans. Between 1899-1900 and 1949-50, both population growth and an increase in the number of students attending high school and postsecondary education led to shifts in the distribution of students at different levels. Of the 31.2 million students in 1949-50, about 71 percent were enrolled in prekindergarten through grade 8, about 21 percent were enrolled in grades 9 through 12, and about 9 percent were enrolled in college. From 1949–50 to more recent years, enrollment in postsecondary education has become more common. Of the 75.7 million students enrolled in 2015, about 26 percent were enrolled in postsecondary education. About 52 percent of students were enrolled in prekindergarten through grade 8 in 2015, and about 22 percent were enrolled in grades 9 through 12.   

In 1962, the National Center for Education Statistics was authorized by legislation, which underscored the expanding role of education statistics within the federal system. This new role was highlighted by major advances in gathering policy-relevant and research-oriented information about our education system through the establishment of the National Assessment of Educational Progress (NAEP) in the late 1960s and the beginning of the National Longitudinal Study of 1972. Elementary and secondary administrative record systems were expanded by working collaboratively with state education agencies through the Common Core of Data beginning in the late 1970s.

The Integrated Postsecondary Education Data System (IPEDS) was developed from existing systems to better meet the needs of institutional, state, and federal decision makers. At the same time, the Center developed new sample surveys to efficiently meet research and policy needs. These new surveys included the National Postsecondary Student Aid Study (1986-87), the Schools and Staffing Survey (1987-88) and the National Household Education Survey (1991).

NCES longitudinal studies have continued to strongly support research and policy analyses at all levels from early childhood to postsecondary education.  One example was the groundbreaking Early Childhood Longitudinal Study, Birth Cohort (2001), which obtained nationally representative data on children from birth to kindergarten entry. NCES has continued a tradition of innovation by including digitally based assessments in the 2017 National Assessment of Educational Progress and by introducing interactive geographic mapping to our website. NCES strives to improve measures of the condition of education by collecting data that reflect the educational experiences of all students, while maintaining a faithful commitment to accuracy, transparency, and objectivity. Find out more about the history of NCES here or by visiting the NCES webpage at nces.ed.gov.

 

By Tom Snyder

Back to School by the Numbers: 2018

Across the country, hallways and classrooms are full of activity as students head back to school for the 2018–19 academic year. Each year, the National Center for Education Statistics (NCES) compiles some back-to-school facts and figures that give a snapshot of our schools and colleges for the coming year. You can see the full report on the NCES website, but here are a few “by-the-numbers” highlights. You can also click on the hyperlinks throughout the blog to see additional data on these topics.

The staff of NCES and the Institute of Education Sciences hopes our nation’s students, teachers, administrators, school staffs, and families have an outstanding school year!

 

50.7 million

The number of students expected to attend public elementary and secondary schools this year—slightly more than in the 2017–18­ school year (50.6 million). The racial and ethnic profile of these students includes 24.1 million White students, 7.8 million Black students, 14.0 million Hispanic students, 2.6 million Asian students, 0.2 million Pacific Islander students, 0.5 million American Indian/Alaska Native students, and 1.6 million students of Two or more races.

About 5.9 million students are expected to attend private schools this year.

 

16.0

The expected number of public school students per teacher in fall 2018. This ratio has remained consistent at around 16.0 since 2010. However, the pupil/teacher ratio is lower in private schools (12.3) and has fallen since 2010, when it was 13.0. 

 

$12,910

This is the projected per-student expenditure in public elementary and secondary schools in 2018–19. Total expenditures for public elementary and secondary schools are projected to be $654 billion for the 2018–19 school year.

 

3.6 million

The number of students expected to graduate from high school this academic year, including about 3.3 million from public schools and nearly 0.4 million from private schools.

 

19.9 million

This is the number of students expected to attend American colleges and universities this fall—higher than the fall 2000 enrollment of 15.3 million but lower than the peak of 21.0 million in 2010. About 13.3 million students will attend four-year institutions and 6.7 million will attend two-year institutions.

 

56.5%

The projected percentage of female postsecondary students in fall 2018, for a total of about 11.2 million female students, compared with 8.7 million male students.

 

By Lauren Musu, NCES and Molly Fenster, American Institutes for Research

Trends in Graduate Student Loan Debt

Sixty percent of students who completed a master’s degree in 2015–16 had student loan debt, either from undergraduate or graduate school. Among those with student loan debt, the average balance was $66,000.[i] But there are many types of master’s degrees. How did debt levels vary among specific degree programs? And how have debt levels changed over time? You can find the answers, for both master’s and doctorate degree programs, in the Condition of Education 2018.

Between 1999–2000 and 2015–16, average student loan debt for master’s degree completers increased by:

  • 71 percent for master of education degrees (from $32,200 to $55,200),
  • 65 percent for master of arts degrees (from $44,000 to $72,800),
  • 39 percent for master of science degrees (from $44,900 to $62,300), and
  • 59 percent for “other” master’s degrees[ii] (from $47,200 to $75,100).

Average loan balances for those who completed master of business education degrees were higher in 2015–16 than in 1999–2000 ($66,300 vs. $47,400), but did not show a clear trend during this period.

Between 1999–2000 and 2015–16, average student loan debt for doctorate degree completers increased by:

  • 97 percent for medical doctorates (from $124,700 to $246,000),
  • 75 percent for other health science doctorates[iii] (from $115,500 to $202,400),
  • 77 percent for law degrees (from $82,400 to $145,500),
  • 104 percent for Ph.D.’s outside the field of education (from $48,400 to $98,800), and
  • 105 percent for “other (non-Ph.D.) doctorates[iv] (from $64,500 to $132,200).

While 1999–2000 data were unavailable for education doctorate completers, the average balance in 2015–16 ($111,900) was 66 percent higher than the average loan balance for education doctorate completers in 2003–04 ($67,300).

For more information, check out the full analysis in the Condition of Education 2018.

 

By Joel McFarland

 

[i] The average balances in this analysis exclude students with no student loans.

[ii] Includes public administration or policy, social work, fine arts, public health, and other.

[iii] Includes chiropractic, dentistry, optometry, pharmacy, podiatry, and veterinary medicine.

[iv] Includes science or engineering, psychology, business or public administration, fine arts, theology, and other.

Developing an Evidence Base for Researcher-Practitioner Partnerships

I recently attended the annual meeting of the National Network of Education Research-Practice Partnerships. I was joined by well over 100 others who represented a wide swath of partnerships (RPPs), most supported by IES funds.  When it comes to research, academic researchers and practitioners often have different needs and different time frames. On paper, RPPs look like a way to bridge that divide.

Over the last few years, IES has made some large investments in RPPs. The Institute’s National Center for Education Research runs an RPP grant competition that has funded over 50 RPPs, with an investment of around $20 million over the last several years. In addition, the evaluation of state and local programs and policies competition has supported partnerships between researchers and state and local education agencies since 2009.

But the biggest investment in RPPs, by far, has been through the Regional Educational Laboratories. In the 2012-2017 REL funding cycle, 85 percent of the REL’s work had to go through “alliances”, which often coordinated several RPPs and themselves emphasized research to practice partnerships. In the current funding cycle, RELs have created over 100 RPPs, and the bulk of REL’s work—upwards of 80 percent—is done through them.

Back of the envelope calculations show that IES is currently spending over $40 million per year on REL RPPs. Add to that the hundreds of millions of dollars invested in alliances in the previous REL contract plus the RPP and state policy grant competitions and this constitutes a very big bet.

Despite the fact that we have invested so much in RPPs for over half a decade, we have only limited evidence about what they are accomplishing.

Consider the report that was just released from the National Center for Research in Policy and Practice. Entitled A Descriptive Study of the IES Researcher-Practitioner Partnership Program, it is exactly what it says it is: a descriptive study.  Its first research goal focused on the perceived benefits of partnerships and the second focused on partnership contexts.

But neither of these research goals answers the most important question: what did the partnerships change, not just in terms of research use or service delivery, but in what matters the most, which is improved outcomes for students.

Despite IES’ emphasis on evidence-based policy, right now RPPs are mostly hope-based. As noted, some research has documented a few of the processes that seem to be associated with better functioning RPPs, such as building trust among partners and having consultative meetings. Research has not, however, helped identify the functions, structures, or processes that work best for increasing the impact of RPPs.

The Institute is planning an evaluation of REL-based RPPs. We know that it will be difficult and imperfect. With over $200 million invested in the last REL cycle, with over 100 REL-based RPPs currently operating, and with $40+ million a year supporting RPPs, we assume that there’s lots of variation in how they are structured, what they are doing, and ultimately how successful they are in improving student outcomes. With so many RPPs and so much variation, our evaluation will focus on the “what works for whom and under what circumstances” type questions: Are certain types of RPPs better at addressing particular types of problems? Are there certain conditions under which RPPs are more likely to be successful?  Are there specific strategies that make some RPPs more successful than others?  Are any successful RPP results replicable?

Defining success will not be simple. A recent study by Henrick et al. identifies five dimensions by which to evaluate RPPs—all of which have multiple indicators. Since it’s not likely that we can adequately assess all five of these dimensions, plus any others that our own background research uncovers, we need to make tough choices. Even by focusing on student outcomes, which we will, we are still left with many problems. For example, different RPPs are focused on different topics—how can we map reasonable outcome measures across those different areas, many of which could have different time horizons for improvement?

Related to the question of time horizons for improvement is the question of how long it takes for RPPs to gain traction. Consider three of arguably the most successful RPPs in the nation: The Chicago Consortium was launched in 1990; the Baltimore consortium, BERC, in fall 2006; and the Research Alliance for New York City Schools in 2008. In contrast, IES’ big investment in RPPs began in 2012. How much time do RPPs need to change facts on the ground? Since much of the work of the earliest alliances was focused on high school graduation rates and college access, 6 years seems to be a reasonable window for assessing those outcomes, but other alliances were engaged in work that may have longer time frames.

The challenges go on and on. But one thing is clear: we can’t continue to bet tens of millions of dollars each year on RPPs without a better sense of what they are doing, what they are accomplishing, and what factors are associated with their success.

The Institute will soon be issuing a request for comments to solicit ideas from the community on the issues and indicators of success that could help us inform our evaluation of the RPPs. We look forward to working with you to provide a stronger evidence base identifying what works for whom in RPPs.

Mark Schneider
Director, IES

Connect with NCES Researchers at Upcoming Summer Conferences: STATS-DC, JSM and ASA

NCES staff will share their knowledge and expertise through research presentations, training sessions, and booth demonstrations at three notable conferences this summer (listed below). The NCES booth will be also be featured at exhibit halls where conference attendees can “ask an NCES expert,” learn how NCES data can support their research, or pick up publications and products.

NCES STATS-DC Data Conference

July 25 – 27
Washington, DC
The Mayflower Hotel

STAT-DC is NCES’ annual conference designed to provide the latest information, resources and training on accessing and using federal education data. Researchers, policymakers and data system managers from all levels are invited to discover innovations in the design and implementation of data collections and information systems. There is no registration fee to attend STATS-DCparticipants must complete registration paperwork onsite at the conference.

Key conference items:

  • Learn updates on federal and state activities affecting data collection and reporting, with a focus on the best new approaches in education statistics
  • Attend general information sessions on CCD, data management, data use, and data privacy, etc.
  • Partake in trainings for Common Core of Data (CCD) and EDFacts data coordinators
  • Attend data tools and resource demonstrations from NCES staff during designated times at the NCES exhibit booth.

NCES Staff Presentations:

Explore the full conference agenda. Some highlighted sessions are shown below.

WEDNESDAY, JULY 25

9:00 a.m. – 12:00 noon
Common Core of Data (CCD) Fiscal Coordinators' Training
District Ballroom

1:15 p.m. – 2:15 p.m.
Opening Plenary Session by Dr. Lynn Woodworth
Grand Ballroom

4:30 p.m. – 5:20 p.m.
Introduction to the Common Core of Data: America's Public Schools by Mark Glander
Palm Court Ballroom

9:00 a.m. – 12:30 p.m.
EDFacts and Common Core of Data (CCD) Nonfiscal Coordinators’ Training
Grand Ballroom

THURSDAY, JULY 26

9:00 a.m. – 10:00 a.m.
Title I Allocations by Bill Sonnenberg
Palm Court Ballroom

 

American Statistical Association – Joint Statistical Meetings

July 28 – August 2
Vancouver, British Columbia, Canada
Vancouver Convention Centre

JSM is the largest gathering of statisticians and data scientists in North America. Exchange ideas and explore opportunities for collaboration across industries with NCES staff and other statisticians in academia, business, and government.
 

Key conference items:

  • Review applications and methodology of statistics, such as analytics and data science
  • Attend technical sessions, poster presentations, roundtable discussions, professional development courses and workshops
  • Visit the NCES booth in the exhibit hall booth #227 and meet the NCES Chief Statistician, Marilyn Seastrom.

NCES Staff Presentation:

THURSDAY, AUGUST 2
8:35 a.m. – 10:30 a.m.
Educating the Government Workforce to Lead with Statistics by Andrew White
CC-East 10

 

American Sociological Association – Annual Meeting

August 11 – August 14
Philadelphia, Pennsylvania
Pennsylvania Convention Center and the Philadelphia Marriott Downtown

Professionals involved in the scientific study of society will share knowledge and discuss new directions in research and practice during this annual meeting.

Key conference items:

  • Choose from 600 program sessions throughout the 4-day conference
  • Browse and discuss topics from 3,000+ research papers submitted
  • Swing by the NCES exhibit hall booth #211

 

Follow us on twitter (@EdNCES) throughout these upcoming conferences to stay up to date and learn the latest in education statistics. We hope you’ll join us whether in person or online!