Appendices A-C NAEP 2019 & 2020 Supplemental Documents

NATIONAL CENTER FOR EDUCATION STATISTICS
NATIONAL ASSESSMENT OF EDUCATIONAL PROGRESS

National Assessment of Educational Progress (NAEP)
2019 and 2020 Update
Appendices A-C
Appendix A: External Advisory Committees
Appendix B: NAEP 2013 Weighting Procedures
Appendix C: 2019 Sampling Memo
OMB# 1850-0928 v.11

September 2018
No changes since v.10

Table of Contents
Appendix A: External Advisory Committees

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Appendix B: NAEP 2013 Weighting Procedures

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Appendix C: 2019 Sampling Memo

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Appendices A-C NAEP 2019-2020

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NATIONAL CENTER FOR EDUCATION STATISTICS
NATIONAL ASSESSMENT OF EDUCATIONAL PROGRESS
National Assessment of Educational Progress (NAEP)
2019 and 2020

Appendix A
External Advisory Committees
OMB# 1850-0928 v.10

March 2018

Appendices A-C NAEP 2019-2020

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Appendix A-1: NAEP Design and Analysis Committee
Name

Affiliation

Betsy Becker

Florida State University, FL

Peter Behuniak

University of Connecticut, CT

Lloyd Bond

University of North Carolina, Greensboro, NC
(Emeritus)/Carnegie Foundation (retired)

Derek Briggs

University of Colorado, CO

Steve Elliott

Arizona State University, AZ

Ben Hansen

University of Michigan, MI

Matthew Johnson

Columbia University, NY

Brian Junker

Carnegie Mellon University, PA

David Kaplan

University of Wisconsin-Madison, WI

Kenneth Koedinger

Carnegie Mellon University, PA

Sophia Rabe-Hesketh

University of California, Berkeley, CA

Michael Rodriguez

University of Minnesota, MN

S.Lynne Stokes

Southern Methodist University, TX

Chun Wang

University of Minnesota, MN

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Appendix A-2: NAEP Validity Studies Panel
Name

Affiliation

Peter Behuniak

University of Connecticut, CT

George Bohrnstedt

American Institutes for Research, Washington, DC

Jim Chromy

RTI International (Emeritus Fellow), Raleigh, NC

Phil Daro

Strategic Education Research (SERP)

Richard Duran

University of California, Berkeley, CA

David Grissmer

University of Virginia, VA

Larry Hedges

Northwestern University, IL

Sami Kitmitto

American Institutes for Research, San Mateo, CA

Ina Mullis

Boston College, MA

Scott Norton

Council of Chief State School Officers,
Washington, DC

Jim Pellegrino

University of Illinois at Chicago/Learning Sciences
Research Institute, IL

Gary Phillips

American Institutes for Research, Washington, DC

Lorrie Shepard

University of Colorado at Boulder, CO

Fran Stancavage

American Institutes for Research, San Mateo, CA

David Thissen

University of North Carolina at Chapel Hill, NC

Sheila Valencia

University of Washington, WA

Ting Zhang

American Institutes for Research, Washington, DC

Appendices A-C NAEP 2019-2020

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Appendix A-3: NAEP Quality Assurance Technical Panel
Name

Affiliation

Jamal Abedi

University of California, Davis, CA

Chuck Cowan

Analytic Focus LLC, San Antonio, TX

Gail Goldberg

Gail Goldberg Consulting, Ellicott City, MD

Brian Gong

National Center for the Improvement of Educational
Assessment, Dover, NH

Richard Luecht

University of North Carolina-Greensboro, NC

Jim Pellegrino

University of Illinois at Chicago/Learning Sciences
Research Institute, IL

Mark Reckase

Michigan State University, MI

Michael (Mike) Russell

Boston College, MA

Phoebe Winter

Consultant, Chesterfield, VA

Richard Wolfe

University of Toronto (Emeritus), Ontario, Canada

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Appendix A-4: NAEP National Indian Education Study Technical Review Panel
Name

Affiliation

Doreen E. Brown

ASD Education Center, Anchorage, AK

Robert B.Cook

Native American Initiative/Teach for America,
Summerset, SD

Steve Andrew Culpepper

University of Illinois at Urbana-Champaign, IL

Susan C. Faircloth

University of North Carolina Wilmington, NC

Jeremy MacDonald

Rocky Boy Elementary, Box, Elder, MT

Holly Jonel Mackey

University of Oklahoma, OK

Jeannette Muskett Miller

Tohatchi High School, Tohatchi, NM

Sedelta Oosahwee

National Education Association, DC

Debora Norris

Salt River Pima-Maicopa Indian Community

Martin Reinhardt

Northern Michigan University, MI

Tarajean Yazzie-Mintz

Wakanyeja ECE Initative/American Indian
College Fund, Denver, CO

Appendix A-5: Geography Standing Committee
Name

Affiliation

Sarah Bednarz

Texas A&M University, TX

Osa Brand

National Council for Geographic Education,
Washington, DC

Seth Dixon

Rhode Island College, RI

Charlie Fitzpatrick

ESRI Schools, Arlington, VA

Ruth Luevanos

Pacoima Middle School, Pacoima, CA

Joe Stoltman

Western Michigan University, MI

Kelly Swanson

Johnson Senior High, St. Paul, MN

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Appendix A-6: NAEP Civics Standing Committee
Name

Affiliation

Patricia Avery

University of Minnesota, MN

Christopher Elnicki

Cherry Creek School District, Greenwood
Village, CO

Fay Gore

North Carolina Public Schools, Raleigh, NC

Barry Leshinsky

Challenger, NC Middle School, Huntsville, AL

Peter Levine

CIRCLE (Center for Information & Research on
Civic Learning and Engagement), Medford, MA

Clarissa Peterson

DePauw University, IN

Terri Richmond

Golden Valley High School, Bakersfield, CA

Jackie Viana

Miami-Dade County Schools, Miami, FL

Appendix A-7 NAEP Economics Standing Committee
Name

Affiliation

Kris Bertelsen

Little Rock Branch-Federal Reserve Bank of St.
Louis, Little Rock, AR

William Bosshardt

Florida Atlantic University, FL

Stephen Buckles

Vanderbilt University, TN

Andrea Caceres-Santamaria

Seminole Ride Community High School, FL

Steven L. Cobb

University of North Texas, TX

Kristen S. McDaniel

Wisconsin Dept. of Public Instruction, WI

Richard MacDonald

St. Cloud State University, MN

Kevin Smith

Renaissance High School, Detroit, MI

William Walstad

University of Nebraska–Lincoln, NE

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Appendix A-8: NAEP Mathematics Standing Committee
Name

Affiliation

Scott Baldridge

Louisiana State University, LA

Carl Cowen

Indiana University–Purdue University, IN

Kathleen Heid

Pennsylvania State University, PA

Mark Howell

Gonzaga College High School, Washington, DC

Carolyn Maher

Rutgers University, NJ

Michele Mailhot

Maine Department of Education, Augusta, ME

Matthew Owens

Spring Valley High School, Columbia, SC

Carole Philip

Alice Deal Middle School, Washington, DC

Kayonna Pitchford

University of North Carolina, NC

Melisa M. Ramos Trinidad

Educación Bilingüe Luis Muñoz Iglesias, Cidra, PR

Allan Rossman

College of Science and Mathematics-CalPoly, CA

Carolyn Sessions

Louisiana Department of Education, LA

Lya Snell

Georgia Department of Education, GA

Ann Trescott

Stella Maris Academy, La Jolla, CA

Vivian Valencia

Espanola Public Schools, NM

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Appendix A-9: NAEP Reading Standing Committee
Name

Affiliation

Peter Afflerbach

University of Maryland, MD

Patricia Alexander

University of Maryland, MD

Alison Bailey

University of California, LA, CA

Katrina Boone

Kentucky Department of Education, KY

Margretta Browne

Richard Montgomery High School, Silver Spring, MD

Julie Coiro

University of Rhode Island, RI

Bridget Dalton

University of Colorado Boulder, CO

Jeanette Mancilla-Martinez

Vanderbilt University, TN

Pamela Mason

Harvard Graduate School of Education, MA

P. David Pearson

University of California, Berkeley, CA

Frank Serafini

Arizona State University, AZ

Kris Shaw

Kansas State Department of Education, KS

Diana Townsend

University of Nevada, Reno, NV

Victoria Young

Texas Education Agency, Austin, TX

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Appendix A-10: NAEP Science Standing Committee
Name

Affiliation

Alicia Cristina Alonzo

Michigan State University, MI

George Deboer

American Association for the Advancement of Science,
Washington, DC

Alex Decaria

Millersville University, PA

Crystal Edwards

Lawrence Township Public Schools, Lawrenceville, NJ

Ibari Igwe

Shrewd Learning, Elkridge, MD

Michele Lombard

Kenmore Middle School, Arlington, VA

Emily Miller

Consultant, WI

Blessing Mupanduki

Department of Defense, Washington, DC

Amy Pearlmutter

Littlebrook Elementary School, Princeton, NJ

Brian Reiser

Northwestern University, Evanston, IL

Michal Robinson

Alabama Department of Education, Montgomery, AL

Gloria Schmidt

Darby Junior High School, Fort Smith, AR

Steve Semken

Arizona State University, Tempe, AZ

Roberta Tanner

Board of Science Education, Longmont, CO

David White

Lamoille North Supervisory Union School District,
Hyde Park, VT

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Appendix A-11: NAEP Survey Questionnaires Standing Committee
Name

Affiliation

Angela Duckworth

University of Pennsylvania, PA

Hunter Gehlbach

Harvard University, MA

Camille Farrington

University of Chicago, Chicago, IL

Gerunda Hughes

Howard University, DC

David Kaplan

University of Wisconsin-Madison, WI

Henry Levin

Teachers College, Columbia University, NY

Stanley Presser

University of Maryland, MD

Augustina Reyes

University of Houston, Houston, TX

Leslie Rutkowski

Indiana University Bloomington, IN

Jonathon Stout

Lock Haven University, PA

Roger Tourangeau

Westat, Rockville, MD

Akane Zusho

Fordham University, NY

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Appendix A-12: NAEP Technology and Engineering Literacy Standing Committee
Name

Affiliation

Keith Barton

Indiana University Bloomington, IN

John Behrens

Pearson eLEADS Center, Mishawaka, IN

Brooke Bourdelat-Parks

Biological Sciences Curriculum Study, Colorado
Springs, CO

Barbara Bratzel

Shady Hill School, Cambridge, MA

Lewis Chappelear

James Monroe High School, North Hills, CA

Britte Haugan Cheng

SRI International, Menlo Park, CA

Meredith Davis

North Carolina State University, NC

Chris Dede

Harvard Graduate School of Education, MA

Richard Duran

University of California, Santa Barbara, CA

Maurice Frazier

Oscar Smith High School, Chesapeake, VA

Camilla Gagliolo

Arlington Public Schools, Arlington, VA

Christopher Hoadley

New York University, NY

Eric Klopfer

Massachusetts Institute of Technology, MA

Beth McGrath

Stevens Institute of Technology, NJ

Greg Pearson

National Academy of Engineering, Washington, DC

John Poggio

University of Kansas, KS

Erin Reilly

University of Southern California, CA

Troy Sadler

University of Missouri Science Education Center,
Columbia, MO

Kimberly Scott

Arizona State University, AZ

Teh-Yuan Wan

New York State Education Department, Albany, NY

Appendices A-C NAEP 2019-2020

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Appendix A-13: NAEP U.S. History Standing Committee
Name

Affiliation

Keith Barton

Indiana University Bloomington, IN

Michael Bunitsky

Frederick County Public Schools, Frederick, MD

Teresa Herrera

Shenandoah Middle School, Miami, FL

Cosby Hunt

Center for Inspired Teaching, Washington, DC

Helen Ligh

Macy Intermediate School, Monterey, CA

Amanda Prichard

Green Mountain High School, Lakewood, CO

Kim Rasmussen

Auburn Washburn Unified School District,
Topeka, KS

Diana Turk

New York University, New York, NY

Appendix A-14: NAEP Mathematics Translation Review Committee
Name

Affiliation

Mayra Aviles

Puerto Rico Department of Education, PR

David Feliciano

P.S./M.S 29, The Melrose School, Bronx, NY

Yvonne Fuentes

Author and Spanish Linguist, Carrollton, GA

Marco Martinez-Leandro

Sandia High School, NM

Jose Antonio (Tony) Paulino

Nathan Straus Preparatory School, NY

Evelisse Rosado Rivera

Teacher, PMB 35 HC, PR

Myrna Rosado-Rasmussen

Austin Independent School District, TX

Gloria Rosado Vazquez

Teacher, HC-02, PR

Enid Valle

Kalamazoo College, Kalamazoo, MI

Appendices A-C NAEP 2019-2020

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Appendix A-15: NAEP Science Translation Review Committee
Name

Affiliation

Daniel Berdugo

Teacher, PS 30X Wilton, NY

Yvonne Fuentes

Author and Spanish Linguist, Carrollton, GA

Myrna Rosado- Rasmussen

Austin Independent School District, Austin, TX

Enid Valle

Kalamazoo College, Kalamazoo, MI

Appendix A-16: NAEP Grade 8 Social Science Translation Review Committee
Name

Affiliation

Yvonne Fuentes

Author and Spanish Linguist, Carrollton, GA

Jose Antonio Paulino

Middle School Teacher, Nathan Strauss
Preparatory School, NY

Dagoberto Eli Ramierz

Bilingual Education Expert, Palmhurst, TX

Enid Valle

Kalamazoo College, Kalamazoo, MI

Appendix A17: NAEP Grade 4 and 8 Survey Questionnaires and eNAEP DBA System
Translation Committee
Name

Affiliation

Daniel Berdugo

PS 30X Wilton, Bronx, NY

Yvonne Fuentes

Carrollton, GA

Marco Martinea-Leandro

Sandia High School. Albuquerque, NM

Jose Antonio (Tony) Paulino

Nathan Straus Preparatory School, New York, NY

Evelisse Rosado Rivera

PMB 36 HC 72, Naranjito, PR

Myrna Rosado-Rasmussen

Austin Independent School District, Austin, TX

Gloria M. Rosado Vazquez

HC – 02 Barranquitas, PR

Enid Valle

Kalamazoo College, Kalamazoo, MI

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Appendix A-18: NAEP Writing Standing Committee
Name

Affiliation

Margretta Browne

Montgomery County Public Schools, Silver Spring, MD

Dina Decristofaro

Scituate Middle School, RI

Elyse Eidman-Aadahl

National Writing Project, Berkeley, CA

Nikki Elliot-Schuman

Smarter Balanced Assessment Consortium

Charles MacArthur

University of Delaware, Newark, DE

Michael McCloskey

Johns Hopkins University, Baltimore, MD

Norma Mota-Altman

San Gabriel High School, Alhambra, CA

Sandra Murphy

University of California, Davis, Walnut Creek, CA

Peggy O’Neill

Loyola University Maryland, MD

Laura Roop

University of Pittsburgh School of Education, PA

Drew Sterner

Tamanend Middle School, Warrington, PA

Sherry Swain

National Writing Project, Berkeley, CA

Jason Torres-Rangel

University of California, CA

Victoria Young

Texas Education Agency, Austin, TX

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Appendix A-19: NAEP Principals’ Panel Standing Committee
Name

Affiliation

David Atherton

Clear Creek Middle School, Gresham, OR

Ardith Bates

Gladden Middle School, Chatsworth, GA

Williams Carozza

Harold Martin Elementary School, Hopkinton, NH

Diane Cooper

St. Joseph’s Academy, Clayton, MO

Brenda Creel

Alta Vista Elementary School, Cheyenne, WY

Rita Graves

Pin Oak Middle School, Bellaire, TX

Don Hoover

Lincoln Junior High School, Springdale, AR

Stephen Jackson

(Formerly with) Paul Laurence Dunbar High
School, Washington, DC

Anthony Lockhart

Lake Shore Middle School, Belle Glade, FL

Susan Martin

Berrendo Middle School, Roswell, NM

Lillie McMillan

Porter Elementary School, San Diego, CA

Kourtney Miller

Chavez Prep Middle School, Washington, DC

Jason Mix

Howard Lake–Waverly–Winsted High School,
Howard Lake, MN

Leon Oo-Sah-We

Ch’ooshgai Community School, Tohatchi, NM

Sylvia Rodriguez Vargas

Atlanta Girls’ School, Atlanta Georgia, GA

Appendices A-C NAEP 2019-2020

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NATIONAL CENTER FOR EDUCATION STATISTICS
NATIONAL ASSESSMENT OF EDUCATIONAL PROGRESS

National Assessment of Educational Progress (NAEP)
2019 and 2020

Appendix B
NAEP 2013 Weighting Procedures
OMB# 1850-0928 v.10

March 2018
Appendices A-C NAEP 2019-2020

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NAEP Technical Documentation Website

NAEP Technical DocumentationWeighting
Procedures for the 2013 Assessment
NAEP assessments use complex sample designs to
Computation of Full-Sample Weights
create student samples that generate population
Computation of Replicate Weights for
and subpopulation estimates with reasonably high
Variance Estimation
precision. Student sampling weights ensure valid
inferences from the student samples to their
Quality Control on Weighting
respective populations. In 2013, weights were
Procedures
developed for students sampled at grades 4, 8, and
12 for assessments in mathematics and reading.
Each student was assigned a weight to be used for making inferences about students in the
target population. This weight is known as the final full-sample student weight and contains the
following major components:
the student base weight;
school nonresponse adjustments;
student nonresponse adjustments;
school weight trimming adjustments;
student weight trimming adjustments; and
student raking adjustment.
The student base weight is the inverse of the overall probability of selecting a student and
assigning that student to a particular assessment. The sample design that determines the base
weights is discussed in the NAEP 2013 sample design section.
The student base weight is adjusted for two sources of nonparticipation: school level and
student level. These weighting adjustments seek to reduce the potential for bias from such
nonparticipation by
increasing the weights of students from participating schools similar to those schools not
participating; and
increasing the weights of participating students similar to those students from within
participating schools who did not attend the assessment session (or makeup session) as
scheduled.
Furthermore, the final weights reflect the trimming of extremely large weights at both the
school and student level. These weighting adjustments seek to reduce variances of survey
estimates.
An additional weighting adjustment was implemented in the state and Trial Urban District
Assessment (TUDA) samples so that estimates for key student-level characteristics were in
agreement across assessments in reading and mathematics. This adjustment was implemented
using a raking procedure.
In addition to the final full-sample weight, a set of replicate weights was provided for each
student. These replicate weights are used to calculate the variances of survey estimates using
the jackknife repeated replication method. The methods used to derive these weights were
aimed at reflecting the features of the sample design, so that when the jackknife variance
estimation procedure is implemented, approximately unbiased estimates of sampling variance
are obtained. In addition, the various weighting procedures were repeated on each set of
replicate weights to appropriately reflect the impact of the weighting adjustments on the
sampling variance of a survey estimate. A finite population correction (fpc) factor was
incorporated into the replication scheme so that it could be reflected in the variance estimates
for the reading and mathematics assessments. See Computation of Replicate Weights for
Variance Estimation for details.
Quality control checks were carried out throughout the weighting process to ensure the
accuracy of the full-sample and replicate weights. See Quality Control for Weighting
Procedures for the various checks implemented and main findings of interest.
In the linked pages that follow, please note that Vocabulary, Reading Vocabulary, and Meaning
Vocabulary refer to the same reporting scale and are interchangeable.

http://nces.ed.gov/nationsreportcard/tdw/weighting/2013/naep_assessment_weighting_procedures.aspx

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NAEP Technical Documentation Website

NAEP Technical Documentation Computation of FullSample W eights for the 2013 Assessment
The full-sample or final student weight is the sampling weight used
to derive NAEP student estimates of population and subpopulation
characteristics for a specified grade (4, 8, or 12) and assessment
subject (reading or mathematics). The full-sample student weight
reflects the number of students that the sampled student represents in
the population for purposes of estimation. The summation of the final
student weights over a particular student group provides an estimate
of the total number of students in that group within the population.

Computation of Base Weights
School and Student Nonresponse Weight
Adjustments
School and Student Weight Trimming
Adjustments
Student Weight Raking Adjustment

The full-sample weight, which is used to produce survey estimates, is
distinct from a replicate weight that is used to estimate variances of survey estimates. The full-sample weight is
assigned to participating students and reflects the student base weight after the application of the various
weighting adjustments. The full-sample weight for student k from school s in stratum j (FSTUWGTjsk) can be
expressed as follows:

where
STU_BWTjsk is the student base weight;
SCH_NRAFjs is the school-level nonresponse adjustment factor;
STU_NRAFjsk is the student-level nonresponse adjustment factor;
SCH_TRIMjs is the school-level weight trimming adjustment factor;
STU_TRIMjsk is the student-level weight trimming adjustment factor; and
STU_RAKEjsk is the student-level raking adjustment factor.
School sampling strata for a given assessment vary by school type and grade. See the links below for descriptions
of the school strata for the various assessments.
Public schools at grades 4 and 8
Public schools at grade 12
Private schools at grades 4, 8 and 12

http://nces.ed.gov/nationsreportcard/tdw/weighting/2013/computation_of_full_sample_weights_for_the_2013_assessment.aspx

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NAEP Technical Documentation Website

NAEP Technical Documentation Computation of
Base Weights for the 2013 Assessment
Every sampled school and student received a base weight equal to the
reciprocal of its probability of selection. Computation of a school base weight
varies by

School Base Weights
Student Base Weights

type of sampled school (original or substitute); and
sampling frame (new school frame or not).
Computation of a student base weight reflects
the student's overall probability of selection accounting for school and student sampling;
assignment to session type at the school- and student-level; and
the student's assignment to the reading or mathematics assessment.

http://nces.ed.gov/nationsreportcard/tdw/weighting/2013/computation_of_base_weights_for_the_2013_assessment.aspx

Appendices A-C NAEP 2019-2020

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NAEP Technical Documentation Website

NAEP Technical Documentation School Base
Weights for the 2013 Assessment
The school base weight for a sampled school is equal to the inverse of its overall probability of
selection. The overall selection probability of a sampled school differs by
type of sampled school (original or substitute);
sampling frame (new school frame or not).
The overall selection probability of an originally selected school in a reading or mathematics
sample is equal to its probability of selection from the NAEP public/private school frame.
The overall selection probability of a school from the new school frame in a reading or
mathematics sample is the product of two quantities:
the probability of selection of the school's district into the new-school district sample, and
the probability of selection of the school into the new school sample.
Substitute schools are preassigned to original schools and take the place of original schools if they
refuse to participate. For weighting purposes, they are treated as if they were the original schools
that they replaced; so substitute schools are assigned the school base weight of the original schools.
Learn more about substitute schools for the 2013 private school national assessment and substitute
schools for the 2013 twelfth grade public school assessment.

http://nces.ed.gov/nationsreportcard/tdw/weighting/2013/school_base_weights_for_the_2013_assessment.aspx

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NAEP Technical Documentation Website

NAEP Technical Documentation Student Base
Weights for the 2013 Assessment
Every sampled student received a student base weight, whether or not the student participated in the
assessment. The student base weight is the reciprocal of the probability that the student was sampled
to participate in the assessment for a specified subject. The student base weight for student k from
school s in stratum j (STU_BWTjsk) is the product of seven weighting components and can be
expressed as follows:

where
SCH_BWTjs is the school base weight;
SCHSsessionassignmentESWTjs is the school-level session assignment weight that reflects the
conditional probability, given the school, that the particular session type was assigned to the
school;
WINSCHWTjs is the within-school student weight that reflects the conditional probability,
given the school, that the student was selected for the NAEP assessment;
STUSESWTjsk is Stu_bookmarkthe student-level session assignment weight that reflects the
conditional probability, given that the particular session type was assigned to the school, that
the student was assigned to the session type;
SUBJFACsubjfacjsk is the subject spiral adjustment factor that reflects the conditional
probability, given that the student was assigned to a particular session type, that the student
was assigned the specified subject;
SUBADJjs is the substitution adjustment factor to account for the difference in enrollment size
between the substitute and original school; and
YRRND_AFjs is the year-round adjustment factor to account for students in yearround schools on scheduled break at the time of the NAEP assessment and thus not
available to be included in the sample.
The within-school student weight (WINSCHWTjs) is the inverse of the student sampling rate in the
school.
The subject spiral adjustment factor (SUBJFACjsk) adjusts the student weight to account for the
spiral pattern used in distributing reading or mathematics booklets to the students. The subject factor
varies by grade, subject, and school type (public or private), and it is equal to the inverse of
the booklet proportions (reading or mathematics) in the overall spiral for a specific sample.
For cooperating substitutes of nonresponding original sampled schools, the substitution adjustment
factor (SUBADJjs) is equal to the ratio of the estimated grade enrollment for the original sampled
school to the estimated grade enrollment for the substitute school. The student sample from the
substitute school then "represents" the set of grade-eligible students from the original sampled
school.
The year-round adjustment factor (YRRND_AFjs) adjusts the student weight for students in yearround schools who do not attend school during the time of the assessment. This situation typically
arises in overcrowded schools. School administrators in year-round schools randomly assign
students to portions of the year in which they attend school and portions of the year in which they
do not attend. At the time of assessment, a certain percentage of students (designated as OFF js) do
not attend school and thus cannot be assessed. The YRRND_AFjs for a school is calculated as 1/(1OFF js/100).

http://nces.ed.gov/nationsreportcard/tdw/weighting/2013/student_base_weights_for_the_2013_assessment.aspx

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NAEP Technical Documentation Website

NAEP Technical Documentation School and Student
Nonr esponse Weight Adjustments for the 2013 Assessment
Nonresponse is unavoidable in any voluntary survey of a human population. Nonresponse
School Nonresponse Weight
leads to the loss of sample data that must be compensated for in the weights of the responding
Adjustment
sample members. This differs from ineligibility, for which no adjustments are necessary. The
Student Nonresponse Weight
purpose of the nonresponse adjustments is to reduce the mean square error of survey estimates.
Adjustment
While the nonresponse adjustment reduces the bias from the loss of sample, it also increases
variability among the survey weights leading to increased variances of the sample estimates.
However, it is presumed that the reduction in bias more than compensates for the increase in
the variance, thereby reducing the mean square error and thus improving the accuracy of survey estimates. Nonresponse
adjustments are made in the NAEP surveys at both the school and the student levels: the responding (original and substitute)
schools receive a weighting adjustment to compensate for nonresponding schools, and responding students receive a weighting
adjustment to compensate for nonresponding students.
The paradigm used for nonresponse adjustment in NAEP is the quasi-randomization approach (Oh and Scheuren 1983). In this
approach, school response cells are based on characteristics of schools known to be related to both response propensity and
achievement level, such as the locale type (e.g., large principal city of a metropolitan area) of the school. Likewise, student
response cells are based on characteristics of the schools containing the students and student characteristics, which are known to
be related to both response propensity and achievement level, such as student race/ethnicity, gender, and age.
Under this approach, sample members are assigned to mutually exclusive and exhaustive response cells based on predetermined
characteristics. A nonresponse adjustment factor is calculated for each cell as the ratio of the sum of adjusted base weights for all
eligible units to the sum of adjusted base weights for all responding units. The nonresponse adjustment factor is then applied to
the base weight of each responding unit. In this way, the weights of responding units in the cell are "weighted up" to represent the
full set of responding and nonresponding units in the response cell.
The quasi-randomization paradigm views nonresponse as another stage of sampling. Within each nonresponse cell, the paradigm
assumes that the responding sample units are a simple random sample from the total set of all sample units. If this model is valid,
then the use of the quasi-randomization weighting adjustment will eliminate any nonresponse bias. Even if this model is not valid,
the weighting adjustments will eliminate bias if the achievement scores are homogeneous within the response cells (i.e., bias is
eliminated if there is homogeneity either in response propensity or in achievement levels). See, for example, chapter 4 of Little
and Rubin (1987).

http://nces.ed.gov/nationsreportcard/tdw/weighting/2013/school_and_student_nonresponse_weight_adjustments_for_the_2013_assessment.aspx

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NAEP Technical Documentation Website

NAEP Technical Documentation School Nonresponse
Weight Adjustment
The school nonresponse adjustment procedure inflates the weights
of cooperating schools to account for eligible noncooperating
schools for which no substitute schools participated. The
adjustments are computed within nonresponse cells and are based
on the assumption that the cooperating and noncooperating
schools within the same cell are more similar to each other than to
schools from different cells. School nonresponse adjustments
were carried out separately by sample; that is, by

Development of Initial School Nonresponse
Cells
Development of Final School Nonresponse
Cells
School Nonresponse Adjustment Factor
Calculation

sample level (state, national),
school type (public, private), and
grade (4, 8, 12).

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NAEP Technical Documentation Development of Initial
School Nonresponse Cells
The cells for nonresponse adjustments are generally functions of the school sampling strata for the individual samples. School
sampling strata usually differ by assessment subject, grade, and school type (public or private). Assessment subjects that are
administered together by way of spiraling have the same school samples and stratification schemes. Subjects that are not
spiraled with any other subjects have their own separate school sample. In NAEP 2015, all operational assessments were
spiraled together.
The initial nonresponse cells for the various NAEP 2015 samples are described below.

Public School Samples for Reading and Mathematics at Grades 4 and 8
For these samples, initial weighting cells were formed within each jurisdiction using the following nesting cell structure:
Trial Urban District Assessment (TUDA) district vs. the balance of the state for states with TUDA districts,
urbanicity (urban-centric locale) stratum; and
race/ethnicity classification stratum, or achievement level, or median income, or grade enrollment.
In general, the nonresponse cell structure used race/ethnicity classification stratum as the lowest level variable. However,
where there was only one race/ethnicity classification stratum within a particular urbanicity stratum, categorized
achievement, median income, or enrollment data were used instead.

Public School Sample at Grade 12
The initial weighting cells for this sample were formed using the following nesting cell structure:
census division stratum,
urbanicity stratum (urban-centric locale), and
race/ethnicity classification stratum.

Private School Samples at Grades 4, 8 and 12
The initial weighting cells for these samples were formed within each grade using the following nesting cell structure:
affiliation,
census division stratum,
urbanicity stratum (urban-centric locale), and
race/ethnicity classification stratum.

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NAEP Technical Documentation Development of Final
School Nonresponse Cells
Limits were placed on the magnitude of cell sizes and adjustment factors to prevent unstable nonresponse adjustments
and unacceptably large nonresponse factors. All initial weighting cells with fewer than six cooperating schools or adjustment
factors greater than 3.0 for the full sample weight were collapsed with suitable adjacent cells. Simultaneously, all initial
weighting cells for any replicate with fewer than four cooperating schools or adjustment factors greater than the maximum of
3.0 or two times the full sample nonresponse adjustment factor were collapsed with suitable adjacent cells. Initial weighting
cells were generally collapsed in reverse order of the cell structure; that is, starting at the bottom of the nesting structure and
working up toward the top level of the nesting structure.

Public School Samples at Grades 4 and 8
For the grade 4 and 8 public school samples, cells with the most similar race/ethnicity classification within a
given jurisdiction/Trial Urban District Assessment (TUDA) district and urbanicity (urban-centric locale) stratum were
collapsed first. If further collapsing was required after all levels of race/ethnicity strata were collapsed, cells with the most
similar urbanicity strata were combined next. Cells were never permitted to be collapsed across jurisdictions or TUDA
districts.

Public School Sample at Grades 12
For the grade 12 public school sample, race/ethnicity classification cells within a given census division stratum and
urbanicity stratum were collapsed first. If further collapsing was required after all levels of race/ethnicity classification were
collapsed, cells with the most similar urbanicity strata were combined next. Any further collapsing occurred across census
division strata but never across census regions.

Private School Samples at Grades 4, 8, and 12
For the private school samples, cells with the most similar race/ethnicity classification within a given affiliation, census
division, and urbanicity stratum were collapsed first. If further collapsing was required after all levels of race/ethnicity strata
were collapsed, cells with the most similar urbanicity classification were combined. Any further collapsing occurred across
census division strata but never across affiliations.

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NAEP Technical Documentation Website

NAEP Technical Documentation School Nonresponse
Adjustment Factor Calculation
In each final school nonresponse adjustment cell c, the school nonresponse adjustment factor SCH_NRAFc was computed as
follows:

where
Sc is the set of all eligible sampled schools (cooperating original and substitute schools and refusing original schools
with noncooperating or no assigned substitute) in cell c,
Rc is the set of all cooperating schools within Sc,
SCH_BWTs is the school base weight,
SCH_TRIMs is the school-level weight trimming factor,
SCHSESWTs is the school-level session assignment weight, and
Xs is the estimated grade enrollment corresponding to the original sampled school.

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NAEP Technical Documentation Website

NAEP Technical Documentation Student Nonresponse
Weight Adjustment
The student nonresponse adjustment procedure inflates the
Development of Initial Student Nonresponse
weights of assessed students to account for eligible sampled
Cells
students who did not participate in the assessment. These
Development of Final Student Nonresponse
inflation factors offset the loss of data associated with absent
Cells
students. The adjustments are computed within nonresponse
cells and are based on the assumption that the assessed and
Student Nonresponse Adjustment Factor
absent students within the same cell are more similar to one
Calculation
another than to students from different cells. Like its counterpart
at the school level, the student nonresponse adjustment is
intended to reduce the mean square error and thus improve the accuracy of NAEP assessment estimates. Also, like its
counterpart at the school level, student nonresponse adjustments were carried out separately by sample; that is, by
grade (4, 8, 12),
school type (public, private), and
assessment subject (mathematics, reading, science, meaning vocabulary).

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NAEP Technical Documentation Website

NAEP Technical Documentation Development of Initial
Student Nonresponse Cells for the 2013 Assessment
Initial student nonresponse cells are generally created within each sample as defined by grade, school type (public, private),
and assessment subject. However, when subjects are administered together by way of spiraling, the initial student nonresponse
cells are created across the subjects in the same spiral. The rationale behind this decision is that spiraled subjects are in the
same schools and the likelihood of whether an eligible student participates in an assessment is more related to its school than
the subject of the assessment booklet. In NAEP 2013, there was only one spiral, with the reading and mathematics assessments
spiraled together. The initial student nonresponse cells for the various NAEP 2013 samples are described below.
Nonresponse adjustment procedures are not applied to excluded students because they are not required to complete an
assessment.

Public School Samples for Reading and Mathematics at Grades 4 and 8
The initial student nonresponse cells for these samples were defined within grade, jurisdiction, and Trial Urban District
Assessment (TUDA) district using the following nesting cell structure:
students with disabilities (SD)/English language learners (ELL) by subject,
school nonresponse cell,
age (classified into "older"1 student and "modal age or younger" student),
gender, and
race/ethnicity.
The highest level variable in the cell structure separates students who were classified either as having disabilities (SD) or as
English language learners (ELL) from those who are neither, since SD or ELL students tend to score lower on assessment tests
than non-SD/non-ELL students. In addition, the students in the SD or ELL groups are further broken down by subject, since
rules for excluding students from the assessment differ by subject. Non-SD and non-ELL students are not broken down by
subject, since the exclusion rules do not apply to them.

Public School Samples for Reading and Mathematics at Grade 12
The initial weighting cells for these samples were formed hierarchically within state for the state-reportable samples and the
balance of the country for remaining states as follows:
SD/ELL,
school nonresponse cell,
age (classified into "older"1 student and "modal age or younger" student),
gender, and
race/ethnicity.

Private School Samples for Reading and Mathematics at Grades 4, 8, and 12
The initial weighting cells for these private school samples were formed hierarchically within grade as follows:
SD/ELL,
school nonresponse cell,
age (classified into "older"1 student and "modal age or younger" student),
gender, and
race/ethnicity.
Although exclusion rules differ by subject, there were not enough SD or ELL private school students to break out by subject as
was done for the public schools.
1Older

students are those born before October 1, 2002, for grade 4; October 1, 1998, for grade 8; and October 1, 1994, for
grade 12.

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NAEP Technical Documentation Website

NAEP Technical Documentation Development of Final
Student Nonresponse Cells for the 2013 Assessment
Similar to the school nonresponse adjustment, cell and adjustment factor size constraints are in place to prevent unstable
nonresponse adjustments or unacceptably large adjustment factors. All initial weighting cells with either fewer than 20
participating students or adjustment factors greater than 2.0 for the full sample weight were collapsed with suitable adjacent
cells. Simultaneously, all initial weighting cells for any replicate with either fewer than 15 participating students or an
adjustment factor greater than the maximum of 2.0 or 1.5 times the full sample nonresponse adjustment factor were collapsed
with suitable adjacent cells.
Initial weighting cells were generally collapsed in reverse order of the cell structure; that is, starting at the bottom of the
nesting structure and working up toward the top level of the nesting structure. Race/ethnicity cells within SD/ELL groups,
school nonresponse cell, age, and gender classes were collapsed first. If further collapsing was required after collapsing all
race/ethnicity classes, cells were next combined across gender, then age, and finally school nonresponse cells. Cells are never
collapsed across SD and ELL groups for any sample.

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NAEP Technical Documentation Website

NAEP Technical DocumentationStudent Nonr esponse
Adjustment Factor Calculation
In each final student nonresponse adjustment cell c for a given sample, the student nonresponse adjustment factor STU_NRAFc
was computed as follows:

where
Sc is the set of all eligible sampled students in cell c for a given sample,
Rc is the set of all assessed students within Sc,
STU_BWTk is the student base weight for a given student k,
SCH_TRIMk is the school-level weight trimming factor for the school associated with student k,
SCH_NRAFk is the school-level nonresponse adjustment factor for the school associated with student k, and
SUBJFACk is the subject factor for a given student k.
The student weight used in the calculation above is the adjusted student base weight, without regard to subject, adjusted
for school weight trimming and school nonresponse.
Nonresponse adjustment procedures are not applied to excluded students because they are not required to complete an
assessment. In effect, excluded students were placed in a separate nonresponse cell by themselves and all received an
adjustment factor of 1. While excluded students are not included in the analysis of the NAEP scores, weights are provided for
excluded students in order to estimate the size of this group and its population characteristics.

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NAEP Technical Documentation Website

NAEP Technical Documentation School and Student Weight
Trimming Adjustments for the 2013 Assessment
Weight trimming is an adjustment procedure that involves detecting and reducing extremely large
Trimming of School
weights. "Extremely large weights" generally refer to large sampling weights that were not
Base Weights
anticipated in the design of the sample. Unusually large weights are likely to produce large
Trimming of Student
sampling variances for statistics of interest, especially when the large weights are associated with
Weights
sample cases reflective of rare or atypical characteristics. To reduce the impact of these large
weights on variances, weight reduction methods are typically employed. The goal of employing
weight reduction methods is to reduce the mean square error of survey estimates. While the
trimming of large weights reduces variances, it also introduces some bias. However, it is presumed that the reduction in the
variances more than compensates for the increase in the bias, thereby reducing the mean square error and thus improving
the accuracy of survey estimates (Potter 1988). NAEP employs weight trimming at both the school and student levels.

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NAEP Technical Documentation Website

NAEP Technical DocumentationTrimming of School
Base Weights
Large school weights can occur for schools selected from the NAEP new-school sampling frame and for private
schools. New schools that are eligible for weight trimming are schools with a disproportionately large student
enrollment in a particular grade from a school district that was selected with a low probability of selection. The
school base weights for such schools may be large relative to what they would have been if they had been
selected as part of the original sample.
To detect extremely large weights among new schools, a comparison was made between a new school's school
base weight and its ideal weight (i.e., the weight that would have resulted had the school been selected from the
original school sampling frame). If the school base weight was more than three times the ideal weight, a
trimming factor was calculated for that school that scaled the base weight back to three times the ideal weight.
The calculation of the school-level trimming factor for a new school s is expressed in the following formula:

where
EXP_WTs is the ideal base weight the school would have received if it had been on the NAEP
public school sampling frame, and
SCH_BWTs is the actual school base weight the school received as a sampled school from the new school
frame.
Thirty-seven (37) schools out of 377 selected from the new-school sampling frame had their weights
trimmed: eight at grade 4, 29 at grade 8, and zero at grade 12.
Private schools eligible for weight trimming were Private School Universe Survey (PSS) nonrespondents who
were found subsequently to have either larger enrollments than assumed at the time of sampling, or an atypical
probability of selection given their affiliation, the latter being unknown at the time of sampling. For private
school s, the formula for computing the school-level weight trimming factor SCH_TRIMs is identical to that
used for new schools. For private schools,
EXP_WTs is the ideal base weight the school would have received if it had been on the NAEP private
school sampling frame with accurate enrollment and known affiliation, and
SCH_BWTs is the actual school base weight the school received as a sampled private school.
No private schools had their weights trimmed.

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NAEP Technical Documentation Website

NAEP Technical DocumentationTrimming of
Student Weights
Large student weights generally come from compounding nonresponse adjustments at the school and
student levels with artificially low school selection probabilities, which can result from inaccurate
enrollment data on the school frame used to define the school size measure. Even though measures are in
place to limit the number and size of excessively large weights—such as the implementation of adjustment
factor size constraints in both the school and student nonresponse procedures and the use of the school
trimming procedure—large student weights can occur due to compounding effects of the various weighting
components.
The student weight trimming procedure uses a multiple median rule to detect excessively large student
weights. Any student weight within a given trimming group greater than a specified multiple of the median
weight value of the given trimming group has its weight scaled back to that threshold. Student weight
trimming was implemented separately by grade, school type (public or private), and subject. The multiples
used were 3.5 for public school trimming groups and 4.5 for private school trimming groups. Trimming
groups were defined by jurisdiction and Trial Urban District Assessment (TUDA) districts for the public
school samples at grades 4 and 8; by dichotomy of low/high percentage of Black and Hispanic students (15
percent and below, above 15 percent) for the public school sample at grade 12; and by affiliation (Catholic,
Non-Catholic) for private school samples at grades 4, 8 and 12.
The procedure computes the median of the nonresponse-adjusted student weights in the trimming group g
for a given grade and subject sample. Any student k with a weight more than M times the median received a
trimming factor calculated as follows:

where
M is the trimming multiple,
MEDIANg is the median of nonresponse-adjusted student weights in trimming group g, and
STUWGTgk is the weight after student nonresponse adjustment for student k in trimming group g.
In the 2013 assessment, relatively few students had weights considered excessively large. Out of the
approximately 840,000 students included in the combined 2013 assessment samples, 226 students had
their weights trimmed.

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NAEP Technical Documentation Website

NAEP Technical DocumentationStudent Weight
Raking Adjustment for the 2013 Assessment
Development of Final Raking Dimensions
Weighted estimates of population totals for student-level
subgroups for a given grade will vary across subjects even
Raking Adjustment Control Totals
though the student samples for each subject generally
come from the same schools. These differences are the
Raking Adjustment Factor Calculation
result of sampling error associated with the random
assignment of subjects to students through a process
known as spiraling. For state assessments in particular, any
difference in demographic estimates between subjects, no matter how small, may raise concerns about data
quality. To remove these random differences and potential data quality concerns, a new step was added to the
NAEP weighting procedure starting in 2009. This step adjusts the student weights in such a way that the
weighted sums of population totals for specific subgroups are the same across all subjects. It was implemented
using a raking procedure and applied only to state-level assessments.
Raking is a weighting procedure based on the iterative proportional fitting process developed by Deming and
Stephan (1940) and involves simultaneous ratio adjustments to two or more marginal distributions of population
totals. Each set of marginal population totals is known as a dimension, and each population total in a dimension
is referred to as a control total. Raking is carried out in a sequence of adjustments. Sampling weights are
adjusted to one marginal distribution and then to the second marginal distribution, and so on. One cycle of
sequential adjustments to the marginal distributions is called an iteration. The procedure is repeated until
convergence is achieved. The criterion for convergence can be specified either as the maximum number of
iterations or an absolute difference (or relative absolute difference) from the marginal population totals. More
discussion on raking can be found in Oh and Scheuren (1987).
For NAEP 2013, the student raking adjustment was carried out separately in each state for the reading
and mathematics public school samples at grades 4 and 8, and in the 13 states with state-reportable samples for
the reading and mathematics public school samples at grade 12. The dimensions used in the raking process were
National School Lunch Program (NSLP) eligibility, race/ethnicity, SD/ELL status, and gender. The control
totals for these dimensions were obtained from the NAEP student sample weights of the reading
and mathematics samples combined.

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NAEP Technical Documentation Website

NAEP Technical Documentation Development of Final
Raking Dimensions
The raking procedure involved four dimensions. The variables used to define the dimensions are listed below along
with the categories making up the initial raking cells for each dimension.
National School Lunch Program (NSLP) eligibility
1. Eligible for free or reduced-price lunch
2. Otherwise
Race/Ethnicity
1. White, not Hispanic
2. Black, not Hispanic
3. Hispanic
4. Asian
5. American Indian/Alaska Native
6. Native Hawaiian/Pacific Islander
7. Two or More Races
SD/ELL status
1. SD, but not ELL
2. ELL, but not SD
3. SD and ELL
4. Neither SD nor ELL
Gender
1. Male
2. Female
In states containing districts that participated in Trial Urban District Assessments (TUDA) districts at grades 4 and 8,
the initial cells were created separately for each TUDA district and the balance of the state. Similar to the procedure
used for school and student nonresponse adjustments, limits were placed on the magnitude of the cell sizes and
adjustment factors to prevent unstable raking adjustments that could have resulted in unacceptably large or small
adjustment factors. Levels of a dimension were combined whenever there were fewer than 30 assessed or excluded
students (20 for any of the replicates) in a category, if the smallest adjustment was less than 0.5, or if the largest
adjustment was greater than 2 for the full sample or for any replicate.
If collapsing was necessary for the race/ethnicity dimension, the following groups were combined first: American
Indian/Alaska Native with Black, not Hispanic; Hawaiian/Pacific Islander with Black, not Hispanic; Two or More
Races with White, not Hispanic; Asian with White, not Hispanic; and Black, not Hispanic with Hispanic. If further
collapsing was necessary, the five categories American Indian/Alaska Native; Two or More Races; Asian; Native
Hawaiian/Pacific Islander; and White, not Hispanic were combined. In some instances, all seven categories had to be
collapsed.
If collapsing was necessary for the SD/ELL dimension, the SD/not ELL and SD/ELL categories were combined first,
followed by ELL/not SD if further collapsing was necessary. In some instances, all four categories had to be collapsed.

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NAEP Technical Documentation Website

NAEP Technical DocumentationRaking
Adjustment Control Totals for the 2013 Assessment
The control totals used in the raking procedure for NAEP 2013 grades 4, 8, and 12 were estimates of the
student population derived from the set of assessed and excluded students pooled across subjects. The control
totals for category c within dimension d were computed as follows:

where
Rc(d) is the set of all assessed students in category c of dimension d,
Ec(d) is the set of all excluded students in category c of dimension d,
STU_BWTk is the student base weight for a given student k,
SCH_TRIMk is the school-level weight trimming factor for the school associated with student k,
SCH_NRAFk is the school-level nonresponse adjustment factor for the school associated with student k,
STU_NRAFk is the student-level nonresponse adjustment factor for student k, and
SUBJFACk is the subject factor for student k.
The student weight used in the calculation of the control totals above is the adjusted student base weight,
without regard to subject, adjusted for school weight trimming, school nonresponse, and student nonresponse.
Control totals were computed for the full sample and for each replicate independently.

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NAEP Technical Documentation Website

NAEP Technical DocumentationRaking Adjustment
Factor Calculation for the 2013 Assessment
For assessed and excluded students in a given subject, the raking adjustment factor STU_RAKEk was computed as
follows:
First, the weight for student k was initialized as follows:

where
STU_BWTk is the student base weight for a given student k,
SCH_TRIMk is the school-level weight trimming factor for the school associated with student k,
SCH_NRAFk is the school-level nonresponse adjustment factor for the school associated with student k,
STU_NRAFk is the student-level nonresponse adjustment factor for student k, and
SUBJFACk is the subject factor for student k.
Then, the sequence of weights for the first iteration was calculated as follows for student k in category c of
dimension d:
For dimension 1:

For dimension 2:

For dimension 3:

For dimension 4:
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where
Rc(d) is the set of all assessed students in category c of dimension d,
Ec(d) is the set of all excluded students in category c of dimension d, and
Totalc(d) is the control total for category c of dimension d.
The process is said to converge if the maximum difference between the sum of adjusted weights and the control
totals is 1.0 for each category in each dimension. If after the sequence of adjustments the maximum difference was
greater than 1.0, the process continues to the next iteration, cycling back to the first dimension with the initial
weight for student k equaling STUSAWTkadj(4) from the previous iteration. The process continued until
convergence was reached.
Once the process converged, the adjustment factor was computed as follows:

where STUSAWTk is the weight for student k after convergence.
The process was done independently for the full sample and for each replicate.

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NAEP Technical Documentation Website

NAEP Technical DocumentationComputation of
Replicate Weights for the 2013 Assessment
Defining Variance Strata and Forming
In addition to the full-sample weight, a set of 62 replicate
Replicates
weights was provided for each student. These replicate
Computing School-Level Replicate Factors
weights are used in calculating the sampling variance of
estimates obtained from the data, using the jackknife repeated
Computing Student-Level Replicate
replication method. The method of deriving these weights was
Factors
aimed at reflecting the features of the sample design
appropriately for each sample, so that when the jackknife
Replicate Variance Estimation
variance estimation procedure is implemented, approximately
unbiased estimates of sampling variance are
obtained. This section gives the specifics for generating the
replicate weights for the 2013 assessment samples. The theory that underlies the jackknife variance estimators
used in NAEP studies is discussed in the section Replicate Variance Estimation.
In general, the process of creating jackknife replicate weights takes place at both the school and student level.
The precise implementation differs between those samples that involve the selection of Primary Sampling Units
(PSUs) and those where the school is the first stage of sampling. The procedure for this second kind of sample
also differed starting in 2011 from all previous NAEP assessments. The change that was implemented permitted
the introduction of a finite population correction factor at the school sampling stage, developed by Rizzo and
Rust (2011). In assessments prior to 2011, this adjustment factor has always been implicitly assumed equal to
1.0, resulting in some overestimation of the sampling variance.
For each sample, the calculation of replicate weighting factors at the school level was conducted in a series of
steps. First, each school was assigned to one of 62 variance estimation strata. Then, a random subset of schools
in each variance estimation stratum was assigned a replicate factor of between 0 and 1. Next, the remaining
subset of schools in the same variance stratum was assigned a complementary replicate factor greater than 1.
All schools in the other variance estimation strata were assigned a replicate factor of exactly 1. This process
was repeated for each of the 62 variance estimation strata so that 62 distinct replicate factors were assigned to
each school in the sample.
This process was then repeated at the student level. Here, each individual sampled student was assigned to one
of 62 variance estimation strata, and 62 replicate factors with values either between 0 and 1, greater than 1, or
exactly equal to 1 were assigned to each student.
For example, consider a single hypothetical student. For replicate 37, that student’s student replicate factor
might be 0.8, while for the school to which the student belongs, for replicate 37, the school replicate factor
might be 1.6. Of course, for a given student, for most replicates, either the student replicate factor, the school
replicate factor, or (usually) both, is equal to 1.0.
A replicate weight was calculated for each student, for each of the 62 replicates, using weighting procedures
similar to those used for the full-sample weight. Each replicate weight contains the school and student replicate
factors described above. By repeating the various weighting procedures on each set of replicates, the impact of
these procedures on the sampling variance of an estimate is appropriately reflected in the variance estimate.
Each of the 62 replicate weights for student k in school s in stratum j can be expressed as follows:

where
STU_BWTjsk is the student base weight;
SCH_REPFACjs(r) is the school-level replicate factor for replicate r;
SCH_NRAFjs(r) is the school-level nonresponse adjustment factor for replicate r;
STU_REPFACjsk(r) is the student-level replicate factor for replicate r;
STU_NRAFjsk(r) is the student-level nonresponse adjustment factor for replicate r;
SCH_TRIMjs is the school-level weight trimming adjustment factor;
STU_TRIMjsk is the student-level weight trimming adjustment factor; and
STU_RAKEjsk(r) is the student-level raking adjustment factor for replicate r.
Specific school and student nonresponse and student-level raking adjustment factors were calculated separately
for each replicate, thus the use of the index (r), and applied to the replicate student base weights. Computing
separate nonresponse and raking adjustment factors for each replicate allows resulting variances from the use of
the final student replicate weights to reflect components of variance due to these various weight adjustments.
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School and student weight trimming adjustments were not replicated, that is, not calculated separately for each
replicate. Instead, each replicate used the school and student trimming adjustment factors derived for the full
sample. Statistical theory for replicating trimming adjustments under the jackknife approach has not been
developed in the literature. Due to the absence of a statistical framework, and since relatively few school and
student weights in NAEP require trimming, the weight trimming adjustments were not replicated.

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NAEP Technical Documentation Website

NAEP Technical Documentation Defining Variance Strata
and Forming Replicates for the 2013 Assessment
In the NAEP 2013 assessment, replicates were formed separately for each sample indicated by grade (4, 8, 12), school type
(public, private), and assessment subject (mathematics, reading). To reflect the school-level finite population corrections in
the variance estimators for the two-stage samples used for the mathematics and reading assessments, replication was carried
out at both the school and student levels.
The first step in forming replicates was to create preliminary variance strata in each primary stratum. This was done by
sorting the appropriate sampling unit (school or student) in the order of its selection within the primary stratum and then pair
off adjacent sampling units into preliminary variance strata. Sorting sample units by their order of sample selection reflects
the implicit stratification and systematic sampling features of the sample design. Within each primary stratum with an even
number of sampling units, all of the preliminary variance strata consisted of pairs of sampling units. However, within
primary strata with an odd number of sampling units, all but one variance strata consisted of pairs of sampling units, while
the last one consisted of three sampling units.
The next step is to form the final variance strata by combining preliminary strata if appropriate. If there were more than 62
preliminary variance strata within a primary stratum, the preliminary variance strata were grouped to form 62 final variance
strata. This grouping effectively maximized the distance in the sort order between grouped preliminary variance strata. The
first 62 preliminary variance strata, for example, were assigned to 62 different final variance strata in order (1 through 62),
with the next 62 preliminary variance strata assigned to final variance strata 1 through 62, so that, for example, preliminary
variance stratum 1, preliminary variance stratum 63, preliminary variance stratum 125 (if in fact there were that many), etc.,
were all assigned to the first final variance stratum.
If, on the other hand, there were fewer than 62 preliminary variance strata within a primary stratum, then the number of final
variance strata was set equal to the number of preliminary variance strata. For example, consider a primary stratum with 111
sampled units sorted in their order of selection. The first two units were in the first preliminary variance stratum; the next
two units were in the second preliminary variance stratum, and so on, resulting in 54 preliminary variance strata with two
sample units each (doublets). The last three sample units were in the 55th preliminary variance stratum (triplet). Since there
are no more than 62 preliminary variance strata, these were also the final variance strata.
Within each preliminary variance stratum containing a pair of sampling units, one sampling unit was randomly assigned as
the first variance unit and the other as the second variance unit. Within each preliminary variance stratum containing three
sampling units, the three first-stage units were randomly assigned variance units 1 through 3.
Reading and Mathematics Assessments
At the school-level for these samples, formation of preliminary variance strata did not pertain to certainty schools, since they
are not subject to sampling variability, but only to noncertainty schools. The primary stratum for noncertainty schools was
the highest school-level sampling stratum variable listed below, and the order of selection was defined by sort order on the
school sampling frame.
Trial Urban District Assessment (TUDA) districts, remainder of states (for states with TUDAs), or entire states for
the public school samples at grades 4, 8, and 12; and
Private school affiliation (Catholic, non-Catholic) for the private school samples at grades 4, 8, and 12.
At the student-level, all students were assigned to variance strata. The primary stratum was school, and the order of selection
was defined by session number and position on the administration schedule.
Within each pair of preliminary variance strata, one first-stage unit, designated at random, was assigned as the first variance
unit and the other first-stage unit as the second variance unit. Within each triplet preliminary variance stratum, the three
schools were randomly assigned variance units 1 through 3.

http://nces.ed.gov/nationsreportcard/tdw/weighting/2013/defining_variance_strata_and_forming_replicates_for_the_2013_assessment.aspx

Appendices A-C NAEP 2019-2020

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NAEP Technical Documentation Website

NAEP Technical DocumentationComputing SchoolLevel Replicate Factors for the 2013 Assessment
The replicate variance estimation approach for the mathematics and reading assessments involved finite population
corrections at the school level. The calculation of school-level replicate factors for these assessments depended upon
whether or not a school was selected with certainty. For certainty schools, the school-level replicate factors for all
replicates are set to unity – this is true regardless of whether or not the variance replication method uses finite
population corrections – since certainty schools are not subject to sampling variability. Alternatively, one can view the
finite population correction factor for such schools as being equal to zero. Thus, for each certainty school in a given
assessment, the school-level replicate factor for each of the 62 replicates (r = 1, ..., 62) was assigned as follows:

where SCH_REPFACjs(r) is the school-level replicate factor for school s in primary stratum j for the r-th replicate.
For noncertainty schools, where preliminary variance strata were formed by grouping schools into pairs or triplets,
school-level replicate factors were calculated for each of the 62 replicates based on this grouping. For schools in
variance strata comprising pairs of schools, the school-level replicate factors,SCH_REPFACjs(r),r = 1,..., 62, were
calculated as follows:

where
min(πj1, πj2) is the smallest school probability between the two schools comprising Rjr,
Rjr is the set of schools within the r-th variance stratum for primary stratum j, and
Ujs is the variance unit (1 or 2) for school s in primary stratum j.
For noncertainty schools in preliminary variance strata comprising three schools, the school-level replicate factors
SCH_REPFACjs(r), r = 1,..., 62 were calculated as follows:
For school s from primary stratum j, variance stratum r,

while for r' = r + 31 (mod 62):

Appendices A-C NAEP 2019-2020

44

and for all other r* other than r and r':

where
min(πj1, πj2,πj3) is the smallest school probability among the three schools comprising Rjr,
Rjr is the set of schools within the r-th variance stratum for primary stratum j, and
Ujs is the variance unit (1, 2, or 3) for school s in primary stratum j.
In primary strata with fewer than 62 variance strata, the replicate weights for the “unused” variance strata (the
remaining ones up to 62) for these schools were set equal to the school base weight (so that those replicates contribute
nothing to the variance estimate).

http://nces.ed.gov/nationsreportcard/tdw/weighting/2013/computing_school_level_replicate_factors_for_the_2013_assessment_.aspx

Appendices A-C NAEP 2019-2020

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NAEP Technical Documentation Website

NAEP Technical DocumentationComputing StudentLevel Replicate Factors for the 2013 Assessment
For the mathematics and reading assessments, which involved school-level finite population corrections, the studentlevel replication factors were calculated the same way regardless of whether or not the student was in
a certainty school.
For students in student-level variance strata comprising pairs of students, the student-level replicate factors,
STU_REPFACjsk(r), r = 1,..., 62, were calculated as follows:

where
πs is the probability of selection for school s,
Rjsr is the set of students within the r-th variance stratum for school s in primary stratum j, and
Ujsk is the variance unit (1 or 2) for student k in school s in stratum j.
For students in variance strata comprising three students, the student-level replicate factors STU_REPFACjsk(r), r =
1,..., 62, were calculated as follows:

while for r' = r + 31 (mod 62):

and for all other r* other than r and r':

where
πs is the probability of selection for school s,
Rjsr is the set of students within the r-th replicate stratum for school s in stratum j, and
Ujsk is the variance unit (1, 2, or 3) for student k in school s in stratum j.
Note, for students in certainty schools, where πs = 1, the student replicate factors are 2 and 0 in the case of pairs, and
1.5, 1.5, and 0 in the case of triples.

http://nces.ed.gov/nationsreportcard/tdw/weighting/2013/computing_student_level_replicate_factors_for_the_2013_assessment.aspx
Appendices A-C NAEP 2019-2020

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NAEP Technical Documentation Website

NAEP Technical Documentation Replicate
Variance Estimation for the 2013 Assessment
Variances for NAEP assessment estimates are computed using the paired jackknife replicate variance
procedure. This technique is applicable for common statistics, such as means and ratios, and differences
between these for different subgroups, as well as for more complex statistics such as linear or logistic
regression coefficients.
In general, the paired jackknife replicate variance procedure involves initially pairing clusters of first-stage
sampling units to form H variance strata (h = 1, 2, 3, ...,H) with two units per stratum. The first replicate is
formed by assigning, to one unit at random from the first variance stratum, a replicate weighting factor of
less than 1.0, while assigning the remaining unit a complementary replicate factor greater than 1.0, and
assigning all other units from the other (H - 1) strata a replicate factor of 1.0. This procedure is carried out
for each variance stratum resulting in H replicates, each of which provides an estimate of the population
total.
In general, this process is repeated for subsequent levels of sampling. In practice, this is not practicable for
a design with three or more stages of sampling, and the marginal improvement in precision of the variance
estimates would be negligible in all such cases in the NAEP setting. Thus in NAEP, when a two-stage
design is used – sampling schools and then students – beginning in 2011 replication is carried out at both
stages. (See Rizzo and Rust (2011) for a description of the methodology.) When a three-stage design is
used, involving the selection of geographic Primary Sampling Units (PSUs), then schools, and then
students, the replication procedure is only carried out at the first stage of sampling (the PSU stage for
noncertainty PSUs, and the school stage within certainty PSUs). In this situation, the school and student
variance components are correctly estimated, and the overstatement of the between-PSU variance
component is relatively very small.
The jackknife estimate of the variance for any given statistic is given by the following formula:

where
represents the full sample estimate of the given statistic, and
represents the corresponding estimate for replicate h.
Each replicate undergoes the same weighting procedure as the full sample so that the jackknife variance
estimator reflects the contributions to or reductions in variance resulting from the various weighting
adjustments.
The NAEP jackknife variance estimator is based on 62 variance strata resulting in a set of 62 replicate
weights assigned to each school and student.
The basic idea of the paired jackknife variance estimator is to create the replicate weights so that use of the
jackknife procedure results in an unbiased variance estimator for simple totals and means, which is also
reasonably efficient (i.e., has a low variance as a variance estimator). The jackknife variance estimator will
then produce a consistent (but not fully unbiased) estimate of variance for (sufficiently smooth) nonlinear
functions of total and mean estimates such as ratios, regression coefficients, and so forth (Shao and Tu,
1995).
The development below shows why the NAEP jackknife variance estimator returns an unbiased variance
estimator for totals and means, which is the cornerstone to the asymptotic results for nonlinear estimators.
See for example Rust (1985). This paper also discusses why this variance estimator is generally efficient
(i.e., more reliable than alternative approaches requiring similar computational resources).
The development is done for an estimate of a mean based on a simplified sample design that closely
approximates the sample design for first-stage units used in the NAEP studies. The sample design is a
stratified random sample with H strata with population weights Wh, stratum sample sizes nh, and stratum
sample means

. The population estimator

and standard unbiased variance estimator

are:

with

Appendices A-C NAEP 2019-2020

47

The paired jackknife replicate variance estimator assigns one replicate h=1,…, H to each stratum, so that
the number of replicates equals H. In NAEP, the replicates correspond generally to pairs and triplets (with
the latter only being used if there are an odd number of sample units within a particular primary stratum
generating replicate strata). For pairs, the process of generating replicates can be viewed as taking a simple
random sample (J) of size nh/2 within the replicate stratum, and assigning an increased weight to the
sampled elements, and a decreased weight to the unsampled elements. In certain applications, the increased
weight is double the full sample weight, while the decreased weight is in fact equal to zero. In this
simplified case, this assignment reduces to replacing
with
, the latter being the sample mean of
the sampled nh/2 units. Then the replicate estimator corresponding to stratum r is

The r-th term in the sum of squares for

is thus:

In stratified random sampling, when a sample of size nr /2 is drawn without replacement from a population
of size nr ,, the sampling variance is

See for example Cochran (1977), Theorem 5.3, using nr, as the “population size,” nr /2 as the “sample

size,” and sr 2 as the “population variance” in the given formula. Thus,

Taking the expectation over all of these stratified samples of size nr /2, it is found that

In this sense, the jackknife variance estimator “gives back” the sample variance estimator for means and
totals as desired under the theory.
In cases where, rather than doubling the weight of one half of one variance stratum and assigning a zero
weight to the other, the weight of one unit is multiplied by a replicate factor of (1+δ), while the other is
multiplied by (1- δ), the result is that

In this way, by setting δ equal to the square root of the finite population correction factor, the jackknife
variance estimator is able to incorporate a finite population correction factor into the variance estimator.

Appendices A-C NAEP 2019-2020

48

In practice, variance strata are also grouped to make sure that the number of replicates is not too large (the
total number of variance strata is usually 62 for NAEP). The randomization from the original sample
distribution guarantees that the sum of squares contributed by each replicate will be close to the target
expected value.
For triples, the replicate factors are perturbed to something other than 1.0 for two different replicate factors,
rather than just one as in the case of pairs. Again in the simple case where replicate factors that are less
than 1 are all set to 0, with the replicate weight factors calculated as follows.
For unit i in variance stratum r

where weight wi is the full sample base weight.

Furthermore, for r' = r + 31 (mod 62):

And for all other values r*, other than r and r´,wi(r*) = 1.
In the case of stratified random sampling, this formula reduces to replacing
replicate r, where

with

for

is the sample mean from a “2/3” sample of 2nr /3 units from the nr sample units

in the replicate stratum, and replacing
with
for replicate r', where
is the sample mean
from another overlapping “2/3” sample of 2nr /3 units from the nr sample units in the replicate stratum.

The r-th and r´-th replicates can be written as:

From these formulas, expressions for the r-th and r´-th components of the jackknife variance estimator are
obtained (ignoring other sums of squares from other grouped components attached to those replicates):

These sums of squares have expectations as follows, using the general formula for sampling variances:

Appendices A-C NAEP 2019-2020

49

Thus,

as desired again.

http://nces.ed.gov/nationsreportcard/tdw/weighting/2013/replicate_variance_estimation_for_the_2013_assessment.aspx

Appendices A-C NAEP 2019-2020

50

NAEP Technical Documentation Website

NAEP Technical Documentation Quality Control
on Weighting Procedures for the 2013 Assessment
Given the complexity of the weighting procedures utilized in NAEP, a range
of quality control (QC) checks was conducted throughout the weighting
process to identify potential problems with collected student-level
demographic data or with specific weighting procedures. The QC processes
included

Final Participation, Exclusion, and
Accommodation Rates
Nonresponse Bias Analyses

checks performed within each step of the weighting process;
checks performed across adjacent steps of the weighting process;
review of participation, exclusion, and accommodation rates;
checking demographic data of individual schools;
comparisons with 2011 demographic data; and
nonresponse bias analyses.
To validate the weighting process, extensive tabulations of various school and student characteristics at different stages
of the process were conducted. The school-level characteristics included in the tabulations were minority
enrollment, median income (based on the school ZIP code area), and urban-centric locale. At the student level, the
tabulations included race/ethnicity, gender, relative age, students with disability (SD) status, English language learners
(ELL) status, and participation status in National School Lunch Program (NSLP).

http://nces.ed.gov/nationsreportcard/tdw/weighting/2013/quality_control_on_weighting_procedures_for_the_2013_assessment.aspx

Appendices A-C NAEP 2019-2020

51

NAEP Technical Documentation Website

NAEP Technical Documentation Final Participation,
Exclusion, and Accommodation Rates for the 2013
Assessment
Final participation, exclusion, and accommodation rates are presented in quality control tables
for each grade and subject by geographic domain and school type. School-level
participation rates have been calculated according to National Center for Education Statistics
(NCES) standards as they have been for previous assessments.
School-level participation rates were below 85 percent for private schools at all three grades (4,
8, and 12). Student-level participation rates were also below 85 percent for grade 12 public
school student sample overall and in specific states: Connecticut, Florida, Illinois, Iowa,
Massachusetts, New Hampshire, New Jersey, and West Virginia. As required by NCES
standards, nonresponse bias analyses were conducted on each reporting group falling below the
85 percent participation threshold.

Grade 4 Mathematics
Grade 4 Reading
Grade 8 Mathematics
Grade 8 Reading
Grade 12 Mathematics
Grade 12 Reading

http://nces.ed.gov/nationsreportcard/tdw/weighting/2013/final_participation_exclusion_and_accommodation_rates_for_the_2013_assessment.aspx

Appendices A-C NAEP 2019-2020

52

NAEP Technical Documentation Website

NAEP Technical Documentation Participation, Exclusion, and
Accommodation Rates for Grade 4 Mathematics for the 2013
Assessment
The following table displays the school- and student-level response, exclusion, and accommodation rates for the grade 4 mathematics assessment by
school type and jurisdiction. Various weights were used in the calculation of the rates, as indicated in the column headings of the table.
The participation rates reflect the participation of the original sample schools only and do not reflect any effect of substitution. The rates weighted by
the base weight and enrollment show the approximate proportion of the student population in the jurisdiction that is represented by the responding
schools in the sample. The rates weighted by just the base weight show the proportion of the school population that is represented by the responding
schools in the sample. These rates differ because schools differ in size.
Participation, exclusion, and accommodation rates, grade 4 mathematics assessment, by school type and
jurisdiction: 2013

School type
and
jurisdiction
All
National
all1
Northeast all
Midwest all
South all
West all
National
public
Alabama
Alaska
Arizona
Arkansas
California
Colorado
Connecticut
Delaware
District of
Columbia
Florida
Georgia
Hawaii
Idaho
Illinois
Indiana
Iowa
Kansas
Kentucky
Louisiana
Maine

Number
of
schools
in
original
sample,
rounded
8,760
8,590

School
participation
rates
(percent)
before
substitution
(weighted
by base
weight and
enrollment)
97.30
97.27

School
participation
rates
(percent)
before
substitution
(weighted
by base
weight
only)
90.45
90.32

Number
of
students
sampled,
rounded
214,900
209,800

1,480
2,190
2,740
2,120
8,060

95.63
97.27
98.20
96.86
99.69

85.22
88.80
93.44
91.04
99.54

120
200
120
120
300
120
120
100
140

100.00
99.48
100.00
100.00
99.17
100.00
97.22
100.00
100.00

240
170
120
130
200
120
140
150
160
130
160

100.00
100.00
100.00
100.00
97.98
100.00
100.00
100.00
100.00
100.00
100.00

Weighted
percent
of
students
excluded
1.40
1.41

Weighted
student
participation
rates
(percent)
after
makeups
94.57
94.57

Weighted
percent of
students
accommodated
13.55
13.44

34,500
47,300
73,600
51,800
202,700

1.29
1.32
1.37
1.62
1.52

93.85
94.84
94.71
94.57
94.49

15.68
12.87
14.38
10.98
14.22

100.00
96.56
100.00
100.00
98.75
100.00
97.25
100.00
100.00

3,200
3,100
3,400
3,400
9,000
3,400
3,200
3,400
2,300

1.10
1.14
1.20
1.24
1.93
1.15
1.36
2.10
1.37

94.82
93.18
95.07
94.66
94.79
92.34
93.85
94.36
95.09

5.15
21.85
12.97
15.16
8.78
12.11
15.52
13.58
17.59

100.00
100.00
100.00
100.00
98.40
100.00
100.00
100.00
100.00
100.00
100.00

6,900
5,300
3,500
3,500
5,100
3,300
3,100
3,400
4,700
3,300
3,400

1.84
1.43
1.25
1.29
1.00
1.52
0.70
1.62
1.45
1.08
2.11

94.11
94.18
94.70
95.24
94.40
95.18
95.16
94.79
94.67
94.49
93.95

20.24
11.22
10.64
9.58
15.44
17.03
14.50
15.16
11.30
18.38
17.44

1 Includes

national public, national private, and Bureau of Indian Education schools located in the United States
and all Department of Defense Education Activity schools, but not schools in Puerto Rico.
2 Department of Defense Education Activity schools.
NOTE: Numbers of schools are rounded to nearest ten, and numbers of students are rounded to nearest hundred.
Detail may not sum to totals because of rounding.
SOURCE: U.S. Department of Education, Institute of Education Sciences, National Center for Education
Statistics, National Assessment of Educational Progress (NAEP), 2013 Mathematics Assessment.

Appendices A-C NAEP 2019-2020

53

Number
of
schools
in
original
sample,
rounded

School
participation
rates
(percent)
before
substitution
(weighted
by base
weight and
enrollment)

School
participation
rates
(percent)
before
substitution
(weighted
by base
weight
only)

Number
of
students
sampled,
rounded

170
190
190
130
120
130
200
170
120
130

100.00
100.00
100.00
100.00
100.00
100.00
99.85
100.00
100.00
100.00

100.00
100.00
100.00
100.00
100.00
100.00
98.28
100.00
100.00
100.00

120
150
160
160

100.00
99.69
98.84
100.00

270
210
140
130
170
120
120
190
120
310
120
220
110
120
150
190
200

Weighted
percent
of
students
excluded

Weighted
student
participation
rates
(percent)
after
makeups

Weighted
percent of
students
accommodated

4,700
5,200
4,600
3,500
3,300
3,600
3,400
3,500
3,500
3,400

0.99
2.03
1.96
1.37
0.76
1.41
1.68
1.72
1.41
1.22

94.22
93.74
94.14
94.85
95.44
95.42
93.92
95.37
95.75
93.74

17.30
17.18
11.02
10.62
6.73
11.20
8.56
14.37
22.90
14.78

100.00
99.48
96.79
100.00

3,300
4,200
4,500
4,800

1.17
1.22
1.23
1.24

94.85
95.06
92.27
94.19

16.62
16.90
20.02
14.17

99.86
100.00
100.00
100.00
100.00
100.00
100.00

99.19
100.00
100.00
100.00
100.00
100.00
100.00

3,700
4,700
3,600
3,500
4,500
3,400
3,200

2.56
1.33
1.85
2.12
1.64
1.12
1.08

95.57
94.29
94.35
94.18
94.30
94.98
96.08

9.78
13.52
13.95
15.23
12.95
15.17
11.87

100.00
100.00
100.00
99.08
100.00
100.00
99.09
100.00
100.00
100.00

100.00
100.00
100.00
99.32
100.00
100.00
99.35
100.00
100.00
100.00

3,400
3,400
9,200
3,600
3,000
3,300
3,600
3,200
4,400
3,500

1.42
1.34
1.65
1.25
1.37
1.51
2.17
1.71
1.79
1.01

95.36
94.21
95.36
94.79
95.04
94.35
93.50
94.77
95.42
94.65

10.56
13.54
17.92
12.66
15.72
13.07
14.12
10.03
16.21
12.76

DoDEA2
120
99.23
98.08
Trial Urban (TUDA) Districts and Other Jurisdictions
Albuquerque
50
100.00
100.00
Atlanta
60
100.00
100.00
Austin
60
100.00
100.00
Baltimore
70
100.00
100.00
City
Boston
80
100.00
100.00
Charlotte
50
100.00
100.00
Chicago
100
100.00
100.00
Cleveland
90
100.00
100.00
Dallas
50
100.00
100.00
Detroit
70
100.00
100.00
Fresno
50
100.00
100.00
Hillsborough
60
100.00
100.00
Houston
80
100.00
100.00

3,700

1.66

95.05

12.20

1,700
2,000
1,700
1,600

1.15
0.98
2.04
1.59

94.71
95.42
93.69
94.32

20.47
9.76
30.80
19.27

2,000
1,700
2,500
1,500
1,700
1,300
1,800
1,700
2,600

3.69
1.19
1.07
4.26
2.33
4.88
0.90
1.17
1.88

93.72
94.18
94.85
93.62
95.79
90.92
93.58
95.74
96.62

19.59
12.81
19.30
22.29
35.42
14.80
7.51
23.30
27.25

School type
and
jurisdiction
Maryland
Massachusetts
Michigan
Minnesota
Mississippi
Missouri
Montana
Nebraska
Nevada
New
Hampshire
New Jersey
New Mexico
New York
North
Carolina
North Dakota
Ohio
Oklahoma
Oregon
Pennsylvania
Rhode Island
South
Carolina
South Dakota
Tennessee
Texas
Utah
Vermont
Virginia
Washington
West Virginia
Wisconsin
Wyoming

1 Includes

national public, national private, and Bureau of Indian Education schools located in the United States
and all Department of Defense Education Activity schools, but not schools in Puerto Rico.
2 Department of Defense Education Activity schools.
NOTE: Numbers of schools are rounded to nearest ten, and numbers of students are rounded to nearest hundred.
Detail may not sum to totals because of rounding.
SOURCE: U.S. Department of Education, Institute of Education Sciences, National Center for Education
Statistics, National Assessment of Educational Progress (NAEP), 2013 Mathematics Assessment.

Appendices A-C NAEP 2019-2020

54

School type
and
jurisdiction

Number
of
schools
in
original
sample,
rounded

School
participation
rates
(percent)
before
substitution
(weighted
by base
weight and
enrollment)

School
participation
rates
(percent)
before
substitution
(weighted
by base
weight
only)

Number
of
students
sampled,
rounded

50

100.00

100.00

80
90
70
80

100.00
100.00
100.00
100.00

60
50
90

Jefferson
County, KY
Los Angeles
Miami
Milwaukee
New York
City
Philadelphia
San Diego
District of
Columbia
(TUDA)
National
private
Catholic
Non-Catholic
private
Puerto
Rico

Weighted
percent
of
students
excluded

Weighted
student
participation
rates
(percent)
after
makeups

Weighted
percent of
students
accommodated

1,700

1.74

94.66

11.61

100.00
100.00
100.00
100.00

2,500
2,300
1,500
2,500

1.96
2.35
3.40
1.33

95.80
95.07
94.68
91.74

9.83
28.05
26.55
27.56

100.00
100.00
100.00

100.00
100.00
100.00

1,600
1,500
1,500

3.45
1.48
1.97

94.71
95.18
95.52

15.82
11.80
18.06

410

71.19

64.52

3,300

0.08

95.61

4.38

130
280

88.65
56.94

89.70
52.97

1,700
1,600

0.06
0.11

95.60
95.62

4.95
3.92

170

100.00

100.00

5,100

0.24

94.47

27.19

1 Includes

national public, national private, and Bureau of Indian Education schools located in the United States
and all Department of Defense Education Activity schools, but not schools in Puerto Rico.
2 Department of Defense Education Activity schools.
NOTE: Numbers of schools are rounded to nearest ten, and numbers of students are rounded to nearest hundred.
Detail may not sum to totals because of rounding.
SOURCE: U.S. Department of Education, Institute of Education Sciences, National Center for Education
Statistics, National Assessment of Educational Progress (NAEP), 2013 Mathematics Assessment.

http://nces.ed.gov/nationsreportcard/tdw/weighting/2013/participation_exclusion_and_accommodation_rates_for_grade_4_mathematics_for_the_2013_assessment.aspx

Appendices A-C NAEP 2019-2020

55

NAEP Technical Documentation Website

NAEP Technical Documentation Participation, Exclusion, and
Accommodation Rates for Grade 4 Reading for the 2013 Assessment
The following table displays the school- and student-level response, exclusion, and accommodation rates for the grade 4 reading assessment by
school type and jurisdiction. Various weights were used in the calculation of the rates, as indicated in the column headings of the table.
The participation rates reflect the participation of the original sample schools only and do not reflect any effect of substitution. The rates weighted
by the base weight and enrollment show the approximate proportion of the student population in the jurisdiction that is represented by the
responding schools in the sample. The rates weighted by just the base weight show the proportion of the school population that is represented by
the responding schools in the sample. These rates differ because schools differ in size.
Participation, exclusion, and accommodation rates, grade 4 r
jurisdiction: 2013

School type
and
jurisdiction
All
National
all1
Northeast all
Midwest all
South all
West all
National
public
Alabama
Alaska
Arizona
Arkansas
California
Colorado
Connecticut
Delaware
District of
Columbia
Florida
Georgia
Hawaii
Idaho
Illinois
Indiana
Iowa
Kansas
Kentucky
Louisiana
Maine
Maryland
Massachusetts
Michigan
Minnesota

eading assessment, by school type and

Number
of
schools
in
original
sample,
rounded
8,590
8,590

School
participation
rates
(percent)
before
substitution
(weighted
by base
weight and
enrollment)
97.27
97.27

School
participation
rates
(percent)
before
substitution
(weighted
by base
weight
only)
90.32
90.32

Number
of
students
sampled,
rounded
216,400
216,400

1,480
2,190
2,740
2,120
8,060

95.63
97.27
98.20
96.86
99.69

85.22
88.80
93.44
91.04
99.54

120
200
120
120
300
120
120
100
140

100.00
99.48
100.00
100.00
99.17
100.00
97.22
100.00
100.00

240
170
120
130
200
120
140
150
160
130
160
170
190
190
130

100.00
100.00
100.00
100.00
97.98
100.00
100.00
100.00
100.00
100.00
100.00
100.00
100.00
100.00
100.00

Weighted
percent
of
students
excluded
2.52
2.52

Weighted
student
participation
rates
(percent)
after
makeups
94.78
94.78

Weighted
percent of
students
accommodated
12.17
12.17

35,600
48,700
76,000
53,500
209,100

1.72
2.01
3.39
2.13
2.69

93.97
95.04
95.00
94.71
94.70

15.30
12.22
12.25
9.92
12.87

100.00
96.56
100.00
100.00
98.75
100.00
97.25
100.00
100.00

3,400
3,300
3,500
3,600
9,300
3,500
3,400
3,500
2,400

1.14
1.45
1.08
1.11
2.50
1.52
1.58
4.70
1.65

95.49
93.65
95.46
95.16
94.88
93.66
94.29
94.34
94.46

5.39
20.65
13.24
15.34
7.73
12.61
15.33
10.38
17.41

100.00
100.00
100.00
100.00
98.40
100.00
100.00
100.00
100.00
100.00
100.00
100.00
100.00
100.00
100.00

7,100
5,400
3,600
3,600
5,200
3,500
3,200
3,500
4,800
3,400
3,500
4,900
5,300
4,800
3,600

2.96
4.90
1.80
1.49
1.24
2.43
1.08
1.82
2.99
1.16
1.69
12.86
2.66
3.81
2.71

93.98
95.34
93.97
94.99
95.13
94.40
95.11
95.07
94.97
94.73
93.65
94.40
93.77
94.64
94.93

19.02
8.13
10.48
9.32
14.76
16.31
14.42
13.41
9.74
18.61
17.87
5.70
15.53
9.66
9.61

1 Includes

national public, national private, and Bureau of Indian Education schools located in the United States
and all Department of Defense Education Activity schools, but not schools in Puerto Rico.
2 Department of Defense Education Activity schools.
NOTE: Numbers of schools are rounded to nearest ten, and numbers of students are rounded to nearest hundred.
Detail may not sum to totals because of rounding.
SOURCE: U.S. Department of Education, Institute of Education Sciences, National Center for Education
Statistics, National Assessment of Educational Progress (NAEP), 2013 Reading Assessment.
Appendices A-C NAEP 2019-2020

56

Number
of
schools
in
original
sample,
rounded

School
participation
rates
(percent)
before
substitution
(weighted
by base
weight and
enrollment)

School
participation
rates
(percent)
before
substitution
(weighted
by base
weight
only)

Number
of
students
sampled,
rounded

120
130
200
170
120
130

100.00
100.00
99.85
100.00
100.00
100.00

100.00
100.00
98.28
100.00
100.00
100.00

120
150
160
160

100.00
99.69
98.84
100.00

270
210
140
130
170
120
120
190
120
310
120
220
110
120
150
190
200

Weighted
percent
of
students
excluded

Weighted
student
participation
rates
(percent)
after
makeups

Weighted
percent of
students
accommodated

3,400
3,700
3,500
3,600
3,700
3,500

0.53
1.23
2.86
3.57
1.50
2.56

94.99
95.26
94.40
95.83
95.10
93.45

6.85
11.16
7.33
14.26
22.73
13.48

100.00
99.48
96.79
100.00

3,400
4,300
4,600
5,000

1.72
1.02
1.35
1.80

94.87
94.55
93.06
94.88

15.27
15.04
20.15
13.06

99.86
100.00
100.00
100.00
100.00
100.00
100.00

99.19
100.00
100.00
100.00
100.00
100.00
100.00

3,800
4,800
3,700
3,700
4,600
3,500
3,300

4.06
2.61
1.72
2.49
2.29
1.34
1.73

96.28
94.58
94.58
93.98
94.42
94.78
94.64

8.73
12.80
14.35
12.20
12.53
14.43
9.74

100.00
100.00
100.00
99.08
100.00
100.00
99.09
100.00
100.00
100.00

100.00
100.00
100.00
99.32
100.00
100.00
99.35
100.00
100.00
100.00

3,500
3,500
9,500
3,700
3,100
3,400
3,700
3,300
4,500
3,600

2.22
3.10
4.90
3.05
1.17
1.54
2.81
1.78
1.61
1.25

95.69
95.34
95.50
93.71
95.05
94.93
93.71
93.62
94.97
94.38

9.26
12.29
14.40
10.29
15.65
12.21
12.45
8.89
16.63
13.00

DoDEA2
120
99.23
98.08
Trial Urban (TUDA) Districts and Other Jurisdictions
Albuquerque
50
100.00
100.00
Atlanta
60
100.00
100.00
Austin
60
100.00
100.00
Baltimore
70
100.00
100.00
City
Boston
80
100.00
100.00
Charlotte
50
100.00
100.00
Chicago
100
100.00
100.00
Cleveland
90
100.00
100.00
Dallas
50
100.00
100.00
Detroit
70
100.00
100.00
Fresno
50
100.00
100.00
Hillsborough
60
100.00
100.00
Houston
80
100.00
100.00
Jefferson
50
100.00
100.00
County, KY
Los Angeles
80
100.00
100.00
Miami
90
100.00
100.00
Milwaukee
70
100.00
100.00
New York
80
100.00
100.00
City

3,800

5.95

95.48

7.39

1,800
2,000
1,700
1,700

0.74
1.12
3.90
15.85

93.43
95.96
94.12
93.62

17.51
9.39
27.06
4.33

2,000
1,700
2,600
1,500
1,700
1,300
1,800
1,800
2,700
1,800

4.33
0.90
1.45
4.70
17.11
5.51
2.36
1.07
6.41
5.28

94.03
94.49
94.58
94.08
96.08
92.09
94.94
94.92
96.63
95.03

17.64
11.72
18.56
22.22
24.30
13.44
6.04
23.00
23.90
7.56

2,500
2,400
1,500
2,500

2.10
4.51
4.08
1.62

94.63
95.37
93.65
92.44

10.75
26.36
25.71
27.13

School type
and
jurisdiction
Mississippi
Missouri
Montana
Nebraska
Nevada
New
Hampshire
New Jersey
New Mexico
New York
North
Carolina
North Dakota
Ohio
Oklahoma
Oregon
Pennsylvania
Rhode Island
South
Carolina
South Dakota
Tennessee
Texas
Utah
Vermont
Virginia
Washington
West Virginia
Wisconsin
Wyoming

1 Includes

national public, national private, and Bureau of Indian Education schools located in the United States
and all Department of Defense Education Activity schools, but not schools in Puerto Rico.
2 Department of Defense Education Activity schools.
NOTE: Numbers of schools are rounded to nearest ten, and numbers of students are rounded to nearest hundred.
Detail may not sum to totals because of rounding.
SOURCE: U.S. Department of Education, Institute of Education Sciences, National Center for Education
Statistics, National Assessment of Educational Progress (NAEP), 2013 Reading Assessment.
Appendices A-C NAEP 2019-2020

57

School type
and
jurisdiction

Number
of
schools
in
original
sample,
rounded

School
participation
rates
(percent)
before
substitution
(weighted
by base
weight and
enrollment)

School
participation
rates
(percent)
before
substitution
(weighted
by base
weight
only)

Number
of
students
sampled,
rounded

60
50
90

100.00
100.00
100.00

100.00
100.00
100.00

410

71.19

130
280

88.65
56.94

Philadelphia
San Diego
District of
Columbia
(TUDA)
National
private
Catholic
Non-Catholic
private

Weighted
percent
of
students
excluded

Weighted
student
participation
rates
(percent)
after
makeups

Weighted
percent of
students
accommodated

1,600
1,600
1,600

3.83
2.32
2.26

94.61
94.74
94.50

15.31
10.45
17.21

64.52

3,400

0.53

95.85

4.05

89.70
52.97

1,700
1,600

0.23
0.79

95.75
95.96

3.84
4.22

1 Includes

national public, national private, and Bureau of Indian Education schools located in the United States
and all Department of Defense Education Activity schools, but not schools in Puerto Rico.
2 Department of Defense Education Activity schools.
NOTE: Numbers of schools are rounded to nearest ten, and numbers of students are rounded to nearest hundred.
Detail may not sum to totals because of rounding.
SOURCE: U.S. Department of Education, Institute of Education Sciences, National Center for Education
Statistics, National Assessment of Educational Progress (NAEP), 2013 Reading Assessment.

http://nces.ed.gov/nationsreportcard/tdw/weighting/2013/participation_exclusion_and_accommodation_rates_for_grade_4_reading_for_the_2013_assessment.aspx

Appendices A-C NAEP 2019-2020

58

NAEP Technical Documentation Website

NAEP Technical Documentation Participation, Exclusion, and
Accommodation Rates for Grade 8 Mathematics for the 2013
Assessment
The following table displays the school- and student-level response, exclusion, and accommodation rates for the grade 8 mathematics assessment by
school type and jurisdiction. Various weights were used in the calculation of the rates, as indicated in the column headings of the table.
The participation rates reflect the participation of the original sample schools only and do not reflect any effect of substitution. The rates weighted by
the base weight and enrollment show the approximate proportion of the student population in the jurisdiction that is represented by the responding
schools in the sample. The rates weighted by just the base weight show the proportion of the school population that is represented by the responding
schools in the sample. These rates differ because schools differ in size.
Participation, exclusion, and accommodation rates, grade 8 mathematics assessment, by school type and
jurisdiction: 2013

School type
and
jurisdiction
All
National
all1
Northeast all
Midwest all
South all
West all
National
public
Alabama
Alaska
Arizona
Arkansas
California
Colorado
Connecticut
Delaware
District of
Columbia
Florida
Georgia
Hawaii
Idaho
Illinois
Indiana
Iowa
Kansas
Kentucky
Louisiana
Maine
Maryland
Massachusetts
Michigan

Number
of
schools
in
original
sample,
rounded
7,370
7,240

School
participation
rates
(percent)
before
substitution
(weighted
by base
weight and
enrollment)
96.97
96.94

School
participation
rates
(percent)
before
substitution
(weighted
by base
weight
only)
84.74
84.59

Number
of
students
sampled,
rounded
201,500
195,600

1,160
1,920
2,380
1,720
6,760

93.53
97.62
97.75
97.42
99.48

75.06
85.21
86.70
89.08
99.61

110
150
120
110
260
120
110
70
90

100.00
99.91
99.03
100.00
100.00
100.00
98.00
100.00
100.00

230
130
60
100
190
110
120
130
140
150
120
160
140
170

100.00
100.00
100.00
100.00
100.00
97.06
100.00
100.00
99.04
100.00
100.00
100.00
100.00
100.00

Weighted
percent
of
students
excluded
1.47
1.48

Weighted
student
participation
rates
(percent)
after
makeups
93.14
93.15

Weighted
percent of
students
accommodated
11.88
11.79

32,700
44,100
68,800
48,000
189,400

1.60
1.42
1.51
1.41
1.59

92.00
93.69
93.24
93.28
93.02

15.85
11.78
11.59
9.25
12.25

100.00
98.79
99.16
100.00
100.00
100.00
97.87
100.00
100.00

3,000
3,000
3,200
3,200
8,400
3,100
3,100
3,200
2,100

1.04
1.08
1.30
1.93
1.49
1.12
2.05
1.31
0.96

94.23
91.72
93.42
95.00
93.59
93.47
92.44
90.65
91.26

5.14
18.75
10.71
13.92
7.91
11.50
13.92
14.90
20.71

100.00
100.00
100.00
100.00
100.00
96.65
100.00
100.00
99.21
100.00
100.00
100.00
100.00
100.00

6,400
4,800
3,200
3,100
4,800
3,000
3,100
3,300
4,300
3,200
2,900
4,400
4,800
4,200

1.70
1.55
1.67
1.06
1.01
1.64
0.77
1.67
2.08
1.06
1.33
1.74
2.01
2.46

91.06
93.38
90.26
94.15
94.48
92.49
93.74
93.94
94.54
94.14
92.79
92.08
91.98
92.93

15.32
9.82
12.28
8.42
13.83
13.95
13.28
11.23
10.09
14.26
15.99
13.33
16.11
10.55

1 Includes

national public, national private, and Bureau of Indian Education schools located in the United States
and all Department of Defense Education Activity schools, but not schools in Puerto Rico.
2 Department of Defense Education Activity schools.
NOTE: Numbers of schools are rounded to nearest ten, and numbers of students are rounded to nearest hundred.
Detail may not sum to totals because of rounding.
SOURCE: U.S. Department of Education, Institute of Education Sciences, National Center for Education
Statistics, National Assessment of Educational Progress (NAEP), 2013 Mathematics Assessment.
Appendices A-C NAEP 2019-2020

59

Number
of
schools
in
original
sample,
rounded

School
participation
rates
(percent)
before
substitution
(weighted
by base
weight and
enrollment)

School
participation
rates
(percent)
before
substitution
(weighted
by base
weight
only)

Number
of
students
sampled,
rounded

130
110
130
150
130
90
90

98.99
100.00
100.00
99.80
100.00
100.00
100.00

99.67
100.00
100.00
98.82
100.00
100.00
100.00

110
120
160
140

100.00
99.68
93.08
100.00

190
200
130
130
160
60
110
150
110
230
120
120
110
120
110
170
100

Weighted
percent
of
students
excluded

Weighted
student
participation
rates
(percent)
after
makeups

Weighted
percent of
students
accommodated

2,900
3,200
3,100
3,200
3,100
3,300
3,200

1.70
0.80
1.28
1.44
1.85
1.04
1.06

91.58
93.80
94.25
92.28
93.41
92.80
91.60

9.16
6.51
10.57
9.20
12.02
11.91
15.99

100.00
99.02
95.81
100.00

3,100
4,000
4,300
4,500

1.64
1.57
1.90
1.29

92.26
93.07
91.15
92.95

16.38
12.00
19.38
13.74

99.92
100.00
100.00
100.00
100.00
100.00
100.00

99.44
100.00
100.00
100.00
100.00
100.00
100.00

3,700
4,500
3,100
3,100
4,300
3,200
3,200

2.93
1.51
1.63
1.47
1.70
1.11
1.33

94.98
93.07
92.97
92.91
92.17
93.93
94.19

11.44
13.54
14.09
10.88
14.66
15.92
9.86

100.00
100.00
100.00
100.00
100.00
100.00
100.00
100.00
100.00
100.00

100.00
100.00
100.00
100.00
100.00
100.00
100.00
100.00
100.00
100.00

3,200
3,200
8,800
3,300
3,000
3,200
3,100
3,200
4,300
3,300

1.30
1.77
1.92
1.53
0.83
1.05
2.03
1.69
1.51
1.50

94.44
92.81
93.82
92.07
93.91
93.39
90.87
92.62
94.25
93.66

8.66
9.81
12.13
10.15
15.36
12.18
11.47
9.02
14.73
12.51

DoDEA2
70
99.40
96.83
Trial Urban (TUDA) Districts and Other Jurisdictions
Albuquerque
30
100.00
100.00
Atlanta
30
100.00
100.00
Austin
30
100.00
100.00
Baltimore
60
100.00
100.00
City
Boston
40
100.00
100.00
Charlotte
40
100.00
100.00
Chicago
100
100.00
100.00
Cleveland
90
100.00
100.00
Dallas
40
100.00
100.00
Detroit
50
100.00
100.00
Fresno
20
100.00
100.00
Hillsborough
50
100.00
100.00
Houston
50
100.00
100.00
Jefferson
40
100.00
100.00
County, KY
Los Angeles
70
100.00
100.00
Miami
80
100.00
100.00
Milwaukee
60
100.00
100.00

2,600

1.15

94.47

9.23

1,400
1,600
1,600
1,300

1.53
0.72
1.88
1.70

90.76
91.57
90.97
89.54

14.44
11.10
20.60
19.73

1,800
1,500
2,300
1,500
1,600
1,100
1,400
1,600
2,400
1,600

2.55
1.29
1.28
2.62
2.44
4.29
1.74
1.35
2.21
1.65

91.61
90.94
94.80
91.57
93.81
91.58
92.52
93.78
92.37
93.37

20.88
10.11
17.19
28.48
18.35
15.07
7.06
20.46
14.67
12.72

2,200
2,300
1,500

1.54
2.25
4.10

94.39
92.63
91.60

10.83
18.78
25.55

School type
and
jurisdiction
Minnesota
Mississippi
Missouri
Montana
Nebraska
Nevada
New
Hampshire
New Jersey
New Mexico
New York
North
Carolina
North Dakota
Ohio
Oklahoma
Oregon
Pennsylvania
Rhode Island
South
Carolina
South Dakota
Tennessee
Texas
Utah
Vermont
Virginia
Washington
West Virginia
Wisconsin
Wyoming

1 Includes

national public, national private, and Bureau of Indian Education schools located in the United States
and all Department of Defense Education Activity schools, but not schools in Puerto Rico.
2 Department of Defense Education Activity schools.
NOTE: Numbers of schools are rounded to nearest ten, and numbers of students are rounded to nearest hundred.
Detail may not sum to totals because of rounding.
SOURCE: U.S. Department of Education, Institute of Education Sciences, National Center for Education
Statistics, National Assessment of Educational Progress (NAEP), 2013 Mathematics Assessment.
Appendices A-C NAEP 2019-2020

60

School type
and
jurisdiction

Number
of
schools
in
original
sample,
rounded

School
participation
rates
(percent)
before
substitution
(weighted
by base
weight and
enrollment)

School
participation
rates
(percent)
before
substitution
(weighted
by base
weight
only)

Number
of
students
sampled,
rounded

90

99.00

97.58

50
30
40

100.00
100.00
100.00

400

New York
City
Philadelphia
San Diego
District of
Columbia
(TUDA)
National
private
Catholic
Non-Catholic
private
Puerto Rico

Weighted
percent
of
students
excluded

Weighted
student
participation
rates
(percent)
after
makeups

Weighted
percent of
students
accommodated

2,400

1.72

91.78

26.10

100.00
100.00
100.00

1,400
1,300
1,100

3.74
2.32
1.69

92.67
92.60
90.15

20.69
11.81
22.20

69.63

60.45

3,400

0.26

94.74

6.54

130
270

87.18
53.51

84.76
48.11

1,800
1,600

0.26
0.26

95.73
93.50

5.50
7.51

130

100.00

100.00

5,900

0.03

92.75

23.05

1 Includes

national public, national private, and Bureau of Indian Education schools located in the United States
and all Department of Defense Education Activity schools, but not schools in Puerto Rico.
2 Department of Defense Education Activity schools.
NOTE: Numbers of schools are rounded to nearest ten, and numbers of students are rounded to nearest hundred.
Detail may not sum to totals because of rounding.
SOURCE: U.S. Department of Education, Institute of Education Sciences, National Center for Education
Statistics, National Assessment of Educational Progress (NAEP), 2013 Mathematics Assessment.

http://nces.ed.gov/nationsreportcard/tdw/weighting/2013/participation_exclusion_and_accommodation_rates_for_grade_8_mathematics_for_the_2013_assessment.aspx

Appendices A-C NAEP 2019-2020

61

NAEP Technical Documentation Website

NAEP Technical Documentation Participation, Exclusion, and
Accommodation Rates for Grade 8 Reading for the 2013 Assessment
The following table displays the school- and student-level response, exclusion, and accommodation rates for the grade 8 reading assessment by
school type and jurisdiction. Various weights were used in the calculation of the rates, as indicated in the column headings of the table.
The participation rates reflect the participation of the original sample schools only and do not reflect any effect of substitution. The rates weighted
by the base weight and enrollment show the approximate proportion of the student population in the jurisdiction that is represented by the
responding schools in the sample. The rates weighted by just the base weight show the proportion of the school population that is represented by
the responding schools in the sample. These rates differ because schools differ in size.
Participation, exclusion, and accommodation rates, grade 8 r
jurisdiction: 2013

School type
and
jurisdiction
All
National
all1
Northeast all
Midwest all
South all
West all
National
public
Alabama
Alaska
Arizona
Arkansas
California
Colorado
Connecticut
Delaware
District of
Columbia
Florida
Georgia
Hawaii
Idaho
Illinois
Indiana
Iowa
Kansas
Kentucky
Louisiana
Maine
Maryland
Massachusetts
Michigan
Minnesota

eading assessment, by school type and

Number
of
schools
in
original
sample,
rounded
7,240
7,240

School
participation
rates
(percent)
before
substitution
(weighted
by base
weight and
enrollment)
96.94
96.94

School
participation
rates
(percent)
before
substitution
(weighted
by base
weight
only)
84.59
84.59

Number
of
students
sampled,
rounded
199,100
199,100

1,160
1,920
2,380
1,720
6,760

93.53
97.62
97.75
97.42
99.48

75.06
85.21
86.70
89.08
99.61

110
150
120
110
260
120
110
70
90

100.00
99.91
99.03
100.00
100.00
100.00
98.00
100.00
100.00

230
130
60
100
190
110
120
130
140
150
120
160
140
170
130

100.00
100.00
100.00
100.00
100.00
97.06
100.00
100.00
99.04
100.00
100.00
100.00
100.00
100.00
98.99

Weighted
percent
of
students
excluded
2.15
2.15

Weighted
student
participation
rates
(percent)
after
makeups
93.11
93.11

Weighted
percent of
students
accommodated
10.76
10.76

33,300
45,100
69,900
48,900
192,900

1.55
1.93
2.60
2.08
2.32

91.80
93.48
93.39
93.21
92.93

15.53
11.08
9.99
8.32
11.16

100.00
98.79
99.16
100.00
100.00
100.00
97.87
100.00
100.00

3,100
3,100
3,300
3,200
8,500
3,200
3,100
3,200
2,100

1.14
1.40
1.47
1.96
2.52
1.15
2.13
3.49
1.82

94.26
91.91
93.67
93.21
93.42
93.46
91.38
91.59
91.33

4.83
18.39
9.67
13.36
6.74
10.89
13.88
12.23
19.57

100.00
100.00
100.00
100.00
100.00
96.65
100.00
100.00
99.21
100.00
100.00
100.00
100.00
100.00
99.67

6,500
4,900
3,300
3,200
4,900
3,100
3,100
3,300
4,300
3,300
3,000
4,400
4,900
4,300
3,000

1.86
3.80
1.93
1.61
1.44
1.90
1.27
1.72
3.28
1.24
1.55
9.41
2.15
3.53
2.33

91.72
93.67
90.58
93.64
93.76
93.12
93.44
93.42
93.93
93.78
92.34
93.77
91.82
93.66
91.30

15.15
8.18
12.33
7.76
12.94
13.75
12.16
11.72
8.47
14.15
15.16
5.45
15.04
9.68
8.43

1 Includes

national public, national private, and Bureau of Indian Education schools located in the United States
and all Department of Defense Education Activity schools, but not schools in Puerto Rico.
2 Department of Defense Education Activity schools.
NOTE: Numbers of schools are rounded to nearest ten, and numbers of students are rounded to nearest hundred.
Detail may not sum to totals because of rounding.
SOURCE: U.S. Department of Education, Institute of Education Sciences, National Center for Education
Statistics, National Assessment of Educational Progress (NAEP), 2013 Reading Assessment.
Appendices A-C NAEP 2019-2020

62

Number
of
schools
in
original
sample,
rounded

School
participation
rates
(percent)
before
substitution
(weighted
by base
weight and
enrollment)

School
participation
rates
(percent)
before
substitution
(weighted
by base
weight
only)

Number
of
students
sampled,
rounded

110
130
150
130
90
90

100.00
100.00
99.80
100.00
100.00
100.00

100.00
100.00
98.82
100.00
100.00
100.00

110
120
160
140

100.00
99.68
93.08
100.00

190
200
130
130
160
60
110
150
110
230
120
120
110
120
110
170
100

Weighted
percent
of
students
excluded

Weighted
student
participation
rates
(percent)
after
makeups

Weighted
percent of
students
accommodated

3,200
3,100
3,200
3,200
3,400
3,200

0.70
1.02
2.29
2.99
1.00
2.93

93.72
92.55
91.61
92.32
92.19
91.46

6.55
10.62
7.51
10.14
10.91
14.28

100.00
99.02
95.81
100.00

3,200
4,000
4,400
4,600

2.64
1.70
0.96
1.72

92.01
93.39
90.46
92.51

14.78
10.00
20.03
12.29

99.92
100.00
100.00
100.00
100.00
100.00
100.00

99.44
100.00
100.00
100.00
100.00
100.00
100.00

3,800
4,600
3,200
3,200
4,300
3,300
3,200

4.30
2.22
1.39
1.45
1.78
1.37
1.88

94.07
93.08
93.43
92.62
91.94
92.96
94.03

9.52
13.08
12.42
11.30
14.51
15.18
7.48

100.00
100.00
100.00
100.00
100.00
100.00
100.00
100.00
100.00
100.00

100.00
100.00
100.00
100.00
100.00
100.00
100.00
100.00
100.00
100.00

3,300
3,200
8,900
3,400
3,100
3,300
3,200
3,200
4,400
3,400

2.95
3.13
3.51
3.05
0.92
1.40
2.46
1.82
1.61
1.14

95.01
93.54
93.78
93.00
92.93
92.97
91.22
93.10
94.11
93.15

6.02
7.75
10.05
8.36
15.08
10.56
9.78
7.60
14.45
12.27

DoDEA2
70
99.40
96.83
Trial Urban (TUDA) Districts and Other Jurisdictions
Albuquerque
30
100.00
100.00
Atlanta
30
100.00
100.00
Austin
30
100.00
100.00
Baltimore
60
100.00
100.00
City
Boston
40
100.00
100.00
Charlotte
40
100.00
100.00
Chicago
100
100.00
100.00
Cleveland
90
100.00
100.00
Dallas
40
100.00
100.00
Detroit
50
100.00
100.00
Fresno
20
100.00
100.00
Hillsborough
50
100.00
100.00
Houston
50
100.00
100.00
Jefferson
40
100.00
100.00
County, KY
Los Angeles
70
100.00
100.00
Miami
80
100.00
100.00
Milwaukee
60
100.00
100.00
New York
90
99.00
97.58
City

2,600

3.84

94.13

7.11

1,400
1,700
1,600
1,300

2.04
1.02
3.35
16.39

93.46
92.20
88.54
89.73

11.79
10.98
18.36
5.14

1,800
1,500
2,300
1,500
1,600
1,100
1,500
1,600
2,400
1,600

3.41
1.68
1.60
3.52
3.51
5.74
3.10
1.94
3.80
4.30

93.05
92.20
94.72
91.90
93.98
91.37
93.27
91.85
93.58
94.71

18.94
9.90
16.76
27.75
15.20
12.53
5.86
19.74
12.29
9.49

2,300
2,400
1,500
2,400

2.70
2.88
4.06
1.46

94.30
94.21
93.15
91.17

9.97
18.45
25.08
26.00

School type
and
jurisdiction
Mississippi
Missouri
Montana
Nebraska
Nevada
New
Hampshire
New Jersey
New Mexico
New York
North
Carolina
North Dakota
Ohio
Oklahoma
Oregon
Pennsylvania
Rhode Island
South
Carolina
South Dakota
Tennessee
Texas
Utah
Vermont
Virginia
Washington
West Virginia
Wisconsin
Wyoming

1 Includes

national public, national private, and Bureau of Indian Education schools located in the United States
and all Department of Defense Education Activity schools, but not schools in Puerto Rico.
2 Department of Defense Education Activity schools.
NOTE: Numbers of schools are rounded to nearest ten, and numbers of students are rounded to nearest hundred.
Detail may not sum to totals because of rounding.
SOURCE: U.S. Department of Education, Institute of Education Sciences, National Center for Education
Statistics, National Assessment of Educational Progress (NAEP), 2013 Reading Assessment.
Appendices A-C NAEP 2019-2020

63

School type
and
jurisdiction

Number
of
schools
in
original
sample,
rounded

School
participation
rates
(percent)
before
substitution
(weighted
by base
weight and
enrollment)

School
participation
rates
(percent)
before
substitution
(weighted
by base
weight
only)

Number
of
students
sampled,
rounded

50
30
40

100.00
100.00
100.00

100.00
100.00
100.00

400

69.63

130
270

87.18
53.51

Philadelphia
San Diego
District of
Columbia
(TUDA)
National
private
Catholic
Non-Catholic
private

Weighted
percent
of
students
excluded

Weighted
student
participation
rates
(percent)
after
makeups

Weighted
percent of
students
accommodated

1,400
1,300
1,100

3.79
2.58
2.53

91.35
93.78
90.18

20.91
10.58
22.13

60.45

3,500

0.30

95.45

6.32

84.76
48.11

1,900
1,600

0.21
0.39

96.07
94.67

4.96
7.56

1 Includes

national public, national private, and Bureau of Indian Education schools located in the United States
and all Department of Defense Education Activity schools, but not schools in Puerto Rico.
2 Department of Defense Education Activity schools.
NOTE: Numbers of schools are rounded to nearest ten, and numbers of students are rounded to nearest hundred.
Detail may not sum to totals because of rounding.
SOURCE: U.S. Department of Education, Institute of Education Sciences, National Center for Education
Statistics, National Assessment of Educational Progress (NAEP), 2013 Reading Assessment.

http://nces.ed.gov/nationsreportcard/tdw/weighting/2013/participation_exclusion_and_accommodation_rates_for_grade_8_reading_for_the_2013_assessment.aspx

Appendices A-C NAEP 2019-2020

64

NAEP Technical Documentation Website

NAEP Technical Documentation Participation, Exclusion, and
Accommodation Rates for Grade 12 Mathematics for the 2013
Assessment
The following table displays the school- and student-level response, exclusion, and accommodation rates for the grade 12 mathematics assessment.
Various weights were used in the calculation of the rates, as indicated in the column headings of the table.
The participation rates reflect the participation of the original sample schools only and do not reflect any effect of substitution. The rates weighted by the
base weight and enrollment show the approximate proportion of the student population in the jurisdiction that is represented by the responding schools
in the sample. The rates weighted by just the base weight show the proportion of the school population that is represented by the responding schools in
the sample. These rates differ because schools differ in size.
Participation, exclusion, and accommodation rates, grade 12 mathematics assessment, by school type and geographic r

School type and geographic
region
All
National all1
Northeast all
Midwest all
South all
West all
National public
Arkansas
Connecticut
Florida
Idaho
Illinois
Iowa
Massachusetts
Michigan
New Hampshire
New Jersey
South Dakota
Tennessee
West Virginia
Remaining jurisdictions2
National private
Catholic
Non-Catholic private

Number
of
schools
in
original
sample
2,200
2,200

School
participation
rates (percent)
before
substitution
(weighted by
base weight
and enrollment)
89.51
89.51

School
participation
rates
(percent)
before
substitution
(weighted by
base weight
only)
82.66
82.66

Number
of
students
sampled
62,200
62,200

510
650
710
330
2,030
100
110
120
100
130
120
110
140
80
110
140
130
90

89.05
87.14
89.42
92.21
92.95
100.00
98.93
99.05
100.00
90.38
100.00
99.04
100.00
100.00
98.14
99.74
100.00
100.00

81.63
83.20
85.99
77.24
93.31
100.00
99.45
99.30
100.00
93.98
100.00
99.45
100.00
100.00
98.57
99.07
100.00
100.00

570
160
40
120

91.16
53.34
68.06
38.52

90.91
55.43
79.95
50.25

egion: 2013

Weighted
percentage
of students
excluded
2.16
2.16

Weighted
student
participation
rates
(percent)
after
makeups
84.33
84.33

Weighted
percentage of
students
accommodated
8.65
8.65

16,200
16,600
20,300
9,100
60,400
2,900
3,200
3,300
3,000
3,300
3,300
3,200
4,000
4,100
3,300
3,100
4,100
3,300

2.29
1.65
2.31
2.32
2.31
2.78
1.76
3.21
1.65
1.85
1.13
2.21
1.90
1.61
1.89
1.51
2.51
2.00

81.79
83.87
86.52
83.37
84.17
92.09
81.22
77.25
89.17
85.16
83.05
81.71
86.94
76.64
84.10
87.48
88.15
83.68

11.95
8.61
7.98
7.15
8.77
8.61
8.71
12.67
6.72
9.79
10.78
11.13
8.78
11.22
14.28
5.78
7.84
7.01

16,200
1,800
1,000
800

2.26
0.63
0.83
0.42

84.41
86.51
85.53
87.96

10.55
7.32
5.46
9.28

1 Includes

national public, national private, Bureau of Indian Education, and Department of Defense Education Activity schools located in the
United States.
2 Includes national public schools not part of the state assessment.
NOTE: Numbers of schools are rounded to nearest ten, and numbers of students are rounded to nearest hundred. Detail may not sum to totals
because of rounding.
SOURCE: U.S. Department of Education, Institute of Education Sciences, National Center for Education Statistics, National Assessment of
Educational Progress (NAEP), 2013 Mathematics Assessment.

http://nces.ed.gov/nationsreportcard/tdw/weighting/2013/participation_exclusion_and_accommodation_rates_for_grade_12_mathematics_for_the_2013_assessment.aspx

Appendices A-C NAEP 2019-2020

65

NAEP Technical Documentation Website

NAEP Technical DocumentationParticipation, Exclusion, and
Accommodation Rates for Grade 12 Reading for the 2013
Assessment
The following table displays the school- and student-level response, exclusion, and accommodation rates for the grade 12 reading assessment.
Various weights were used in the calculation of the rates, as indicated in the column headings of the table.
The participation rates reflect the participation of the original sample schools only and do not reflect any effect of substitution. The rates weighted
by the base weight and enrollment show the approximate proportion of the student population in the jurisdiction that is represented by the
responding schools in the sample. The rates weighted by just the base weight show the proportion of the school population that is represented by the
responding schools in the sample. These rates differ because schools differ in size.
Participation, exclusion, and accommodation rates, grade 12 r

School type and
geographic region
All
National all1
Northeast all
Midwest all
South all
West all
National public
Arkansas
Connecticut
Florida
Idaho
Illinois
Iowa
Massachusetts
Michigan
New Hampshire
New Jersey
South Dakota
Tennessee
West Virginia
Remaining jurisdictions2
National private
Catholic
Non-Catholic

eading assessment, by school type and geographic r

Number
of
schools
in
original
sample
2,200
2,200

School
participation rates
(percent) before
substitution
(weighted by base
weight and
enrollment)
89.51
89.51

School
participation rates
(percent) before
substitution
(weighted by
base weight only)
82.66
82.66

Number
of
students
sampled
62,300
62,300

510
650
710
330
2,030
100
110
120
100
130
120
110
140
80
110
140
130
90

89.05
87.14
89.42
92.21
92.95
100.00
98.93
99.05
100.00
90.38
100.00
99.04
100.00
100.00
98.14
99.74
100.00
100.00

81.63
83.20
85.99
77.24
93.31
100.00
99.45
99.30
100.00
93.98
100.00
99.45
100.00
100.00
98.57
99.07
100.00
100.00

570
160
40
120

91.16
53.34
68.06
38.52

90.91
55.43
79.95
50.25

egion: 2013

Weighted
percentage
of students
excluded
2.41
2.41

Weighted
student
participation
rates
(percent)
after
makeups
83.89
83.89

Weighted
percentage of
students
accommodated
8.55
8.55

16,500
16,700
20,000
9,000
60,400
3,000
3,400
3,300
3,200
3,400
3,500
3,200
3,900
4,300
3,300
3,300
3,900
3,400

2.16
2.05
2.87
2.24
2.56
2.56
2.34
3.55
1.66
2.29
1.51
1.87
4.01
2.55
1.80
1.60
2.88
2.37

80.91
84.05
85.51
83.58
83.77
90.21
79.77
77.34
88.68
83.72
84.26
79.84
87.21
76.91
84.67
86.17
88.82
84.28

12.89
8.75
7.18
7.14
8.73
8.24
8.70
12.14
6.42
9.92
10.62
11.31
6.17
10.25
14.78
5.16
7.13
6.89

15,200
1,900
1,100
800

2.77
0.84
0.92
0.75

83.98
85.52
84.67
86.75

10.05
6.67
4.01
9.41

1 Includes

national public, national private, Bureau of Indian Education, and Department of Defense Education Activity schools located
in the United States.
2 Includes national public schools not part of the state assessment.
NOTE: Numbers of schools are rounded to nearest ten, and numbers of students are rounded to nearest hundred. Detail may not sum to
totals because of rounding.
SOURCE: U.S. Department of Education, Institute of Education Sciences, National Center for Education Statistics, National Assessment
of Educational Progress (NAEP), 2013 Reading Assessment.

http://nces.ed.gov/nationsreportcard/tdw/weighting/2013/participation_exclusion_and_accommodation_rates_for_grade_12_reading_for_the_2013_assessment.aspx

Appendices A-C NAEP 2019-2020

66

NAEP Technical Documentation Website

NAEP Technical Documentation Nonresponse
Bias Analyses for the 2013 Assessment
NCES statistical standards call for a nonresponse bias analysis to be conducted for a sample with a
response rate below 85 percent at any stage of sampling. Weighted school response rates for the 2013
assessment indicated a need for school nonresponse bias analyses for private school samples in grades 4,
8, and 12 (operational subjects). Student nonresponse bias analyses were necessary for the grade 12
public school student sample overall and in specific states, for both reading and mathematics:
Connecticut, Florida, Iowa, Massachusetts, New Hampshire, and West Virginia. Additionally, a student
nonresponse bias analysis was required for the grade 12 public school student sample in Illinois based on
the weighted response rate for reading, while such an analysis was required for grade 12 public school
student sample in New Jersey based on the weighted response rate for mathematics. Thus, three separate
school-level analyses and nine separate student-level analyses were conducted.
The procedures and results from these analyses are summarized briefly below. The analyses conducted
consider only certain characteristics of schools and students. They do not directly consider the effects of
the nonresponse on student achievement, the primary focus of NAEP. Thus, these analyses cannot be
conclusive of either the existence or absence of nonresponse bias for student achievement. For more
details, please see the NAEP 2013 NRBA report
(657.56 KB).
Each school-level analysis was conducted in three parts. The first part of the analysis looked
for potential nonresponse bias that was introduced through school nonresponse. The second part of the
analysis examined the remaining potential for nonresponse bias after accounting for the mitigating
effects of substitution. The third part of the analysis examined the remaining potential for nonresponse
bias after accounting for the mitigating effects of both school substitution and school-level nonresponse
weight adjustments. The characteristics examined were Census region, reporting subgroup (private
school type), urban-centric locale, size of school (categorical), and race/ethnicity percentages (mean).
Based on the school characteristics available, for the private school samples at grade 4, there does not
appear to be evidence of substantial potential bias resulting from school substitution or school
nonresponse. However, the analyses suggest that a potential for nonresponse bias remains for the grade 8
and 12 private school samples. For grade 8, this result is evidently related to the fact that, among nonCatholic schools, larger schools were less likely to respond. Thus, when making adjustments to address
the underrepresentation of non-Catholic schools among the respondents, the result is to over
represent smaller schools at the expense of larger ones. The limited school sample sizes involved means
that it is not possible to make adjustments that account fully for all school characteristics. For grade 12,
the analyses suggested potential bias for percentage Asian and percentage Two or more races. Please see
the full report for more details.
Each student-level analysis was conducted in two parts. The first part of the analysis examined the
potential for nonresponse bias that was introduced through student nonresponse. The second part of the
analysis examined the potential for bias after accounting for the effects of nonresponse weight
adjustments. The characteristics examined were gender, race/ethnicity, relative age, National School
Lunch Program eligibility, student disability (SD) status, and English language learner (ELL) status.
Based on the student characteristics available, there does not appear to be evidence of substantial
potential bias resulting from student nonresponse. Please see the full report for more details.

http://nces.ed.gov/nationsreportcard/tdw/weighting/2013/nonresponse_bias_analyses_for_the_2013_assessment.aspx

Appendices A-C NAEP 2019-2020

67

NATIONAL CENTER FOR EDUCATION STATISTICS
NATIONAL ASSESSMENT OF EDUCATIONAL PROGRESS
National Assessment of Educational Progress (NAEP)
2019 and 2020

Appendix C
2019 Sampling Memo

OMB# 1850-0928 v.10

March 2018
Appendices A-C NAEP 2019-2020

68

Date:

February 28, 2018

Memo: 20191.1A/1.1B/1.1D/1.1E

To:

William Ward, NCES
Ed Kulick, ETS
David Freund, ETS

Chris Averett
Kavemuii Murangi
Erin Wiley

Amy Dresher, ETS

Dwight Brock

Cathy White, Pearson
Saira Brenner, Fulcrum
Dianne Walsh
Lauren Byrne
Lisa Rodriguez
Rick Rogers
Rob Dymowski
William Wall

David Hubble
Yiting Dai
Jing Kang
Sabrina Zhang
Leslie Wallace
Natalia Weil
Greg Binzer

From:
Amy Lin, John Burke, and Lloyd Hicks
Reviewer: Keith Rust
Subject:

I.

Sample Design for 2019 NAEP - DRAFT

Introduction

For 2019, the NAEP assessment involves the following components:
A.

National assessments in reading, mathematics, and science at grades 4, 8, and 12;

B.

State-by-state and Trial Urban District Assessment (TUDA) assessments in reading and
mathematics for public schools at grades 4 and 8;

C.

An assessment of mathematics in Puerto Rico at grades 4 and 8;

D.

Pilot tests in reading, mathematics, and vocabulary at grades 4 and 8.

Appendices A-C NAEP 2019-2020

69

Below is a summary list of the features of the 2019 sample design.
1.

The alpha samples for grades 4 and 8 public, and the delta samples for private schools
at grades 4 and 8, will be used for the operational assessments in reading and
mathematics.

2.

The beta public school samples and the epsilon private school samples at grades 4 and 8
will be used for the national science assessments and the various pilot tests. The beta
and epsilon samples at grade 12 will be used for the operational reading, mathematics,
and science assessments.

3.

As in recent NAEP studies, each Trial Urban District Assessment (TUDA) sample will
form part of the corresponding state sample, and each state sample will form part of the
national sample. There are twenty-seven Trial Urban District Assessment (TUDA)
participants. These are the same districts that participated in 2017.

4.

Schools in the alpha and delta samples will be assessed using DBA with tablets. Schools
in the beta and epsilon samples will receive a mixture of DBA assessments, using
tablets, and pencil and paper (PBA) assessments.

5.

All BIE schools and students will be included in the operational samples at grades 4 and
8. This is because, after a hiatus in 2017, the National Indian Education Study (NIES) is
resuming. Having all BIE students in sample is designed to provide detailed national
results for American Indian and Alaskan Native (AIAN) students in reading and
mathematics, as part of the NIES.

6.

There will be no samples in territories other than for Puerto Rico at grades 4 and 8.

7.

As in 2017, the Department of Defense Schools are expected to be reported as a single
jurisdiction (DoDEA).

8.

At grade 12, there will be no state-level samples.

9.

Oversampling of private schools at grades 4 and 8 will be done at the same level as
2017. Response rates permitting, this will allow separate reporting for reading and
mathematics for Catholic and non-Catholic schools at grades 4 and 8, but no further
breakdowns by private school type.

10.

The sample sizes of assessed students for these various components are shown in Table
1 (which also shows the approximate numbers of participating schools).

11.

In the beta samples, there will be moderate oversampling of schools with moderate to
high proportions of Black, Hispanic, and American Indian and Alaska Native students.

Appendices A-C NAEP 2019-2020

70

Table 1.

Target sample sizes of assessed students, and expected number of participating
schools, for 2019 NAEP
Spiral
Spiral
Indic.

Grade 4
Nat’l/state reading (DBA)
Nat’l/state math (DBA)
Puerto Rico (DBA)
Total - alpha
Total- delta
Typical max. no. students/school
Average assessed students/school
Total schools - alpha, delta
Science (DBA)
Science (PBA)
Math Pilot
Reading Pilot
Vocabulary initial-Pilot
Total - beta
Total - epsilon
Typical max. no. students/school
Average assessed students/school
Total schools - beta, epsilon
Total number of students grade 4
Total number of schools grade 4

Appendices A-C NAEP 2019-2020

DS
DS
DP

Jurisdictions
States
(incl. DC, Urban
DoDEA) districts
52
52
1

27
27

Students
Public
Private
school
school
students students
176,000
144,000
3,000
323,000
50
40
8,075

DA
PA
DA
DA
DA

17,100
8,100
10,350
4,050
1,980
41,580

3,700
3,000
0
6,700
50
25
268
1,900
900
1,150
450
220

62
50
832

4,620
62
25
185

364,580
8,907

11,320
453

Total
179,000
147,000
3,000
323,000
6,700

8,343
19,000
9,000
11,500
4,500
2,200
41,580
4,620

1,017
375,900
9,360

71

Table 1.

Target sample sizes of assessed students, and expected number of participating
schools, for 2019 NAEP (Continued)
Spiral
Spiral
Indic.

Grade 8
Nat’l/state reading (DBA)
Nat’l/state math (DBA)
Puerto Rico (DBA)
Total - alpha
Total- delta
Typical max. no. students/school
Average assessed students/school
Total schools - alpha, delta
Science (DBA)
Science (PBA)
Math Pilot
Reading pilot
Vocabulary initial-Pilot
Total – beta
Total – epsilon
Typical max. no. students/school
Average assessed students/school
Total schools - beta, epsilon
Total number of students grade 8
Total number of schools grade 8

Appendices A-C NAEP 2019-2020

DS, DT
DS, DT
DP

Jurisdictions
States
(incl. DC, Urban
DoDEA) districts
52
52
1

27
27

Students
Public
Private
school
school
students
students
176,000
144,000
3,000
323,000
50
47
6,870

DA
PA
DA
DA
DA

17,100
9,000
10,350
4,050
1,980
42,480

3,700
3,000
0
6,700
50
25
268
1,900
1,000
1,150
450
220

63
52
817

4,720
63
25
189

365,480
7,687

11,420
457

Total
179,000
147,000
3,000
323,000
6,700

7,138
19,000
10,000
11,500
4,500
2,200
42,480
4,720

1,006
376,900
8,144

72

Table 1.

Target sample sizes of assessed students, and expected number of participating
schools, for 2019 NAEP (Continued)
Spiral

Jurisdictions
States
Spiral (incl. DC, Urban
Indic. DoDEA) districts
Grade 12
Reading (DBA)
Reading (PBA)
Math (DBA)
Math (PBA)
Science (DBA)
Science (PBA)
Total - beta
Total- epsilon
Typical max. no. students/school
Average assessed students/school
Total schools – beta, epsilon

DA
PA
DA
PA
DA
PA

Total number of students grade 12
Total number of schools grade 12

GRAND TOTAL STUDENTS
GRAND TOTAL SCHOOLS

II.

Students
Public
Private
School
school
students
students
13,500
11,700
12,600
12,600
17,100
9,900
77,400

1,500
1,300
1,400
1,400
1,900
1,100

Total
15,000
13,000
14,000
14,000
19,000
11,000
77,400
8,600

68
50
1,548

8,600
68
40
215

77,400
1,548

8,600
215

86,000
1,763

807,460
18,142

31,340
1,125

838,800
19,267

1,763

Assessment Types

The assessment spiral types are shown in Table 2. Four different spirals will be used at grades 4 and
8, and two at grade 12. Session IDs contain six characters, traditionally. The first two characters
identify the assessment “type” (subjects and type of spiral in a general way). Grade is contained in
the second pair of characters, and the session sequential number (within schools) in the last two
characters. For example, session DS0401 denotes the first grade 4 reading and mathematics
operational DBA assessment in a given school.

Appendices A-C NAEP 2019-2020

73

Table 2.
ID

NAEP 2019 assessment types and IDs
Type

Subjects

Grades

Schools

Comments
All schools in the alpha (except
Puerto Rico) and delta
samples.

DS

Operational
DBA

Reading, math (22:27)

4, 8

Public,
Private

DA

Operational,
and pilot DBA

Science, reading, math,
vocabulary
(190:45:115:22)

4, 8

Public,
Private

All schools in the beta and
epsilon samples.

PA

Operational

Science

4, 8

DA

Operational

PA

Operational

DP

Operational

Public,
Private
Public,
Private
Public,
Private
Public

All schools in the beta and
epsilon samples.
All schools in the beta and
epsilon samples.
All schools in the beta and
epsilon samples.
Puerto Rico alpha samples

III.

Reading, math, science,
(15:14:19)
Reading, math, science
(13:14:11)
Mathematics

12
12
4, 8

Sample Types and Sizes

In similar fashion to past years (but somewhat different), we will identify four different types of
school samples: Alpha, Beta, Delta, and Epsilon. These distinguish sets of schools that will be
conducting distinct portions of the assessment.

1.

Alpha Samples at Grades 4 and 8

These are public school samples for grades 4 and 8. They will be used for the operational state-bystate assessments in reading and mathematics, and contribute to the national samples for these
subjects as well. There will be alpha samples for each state, DC, DoDEA, BIE, and Puerto Rico.
The details of the target student sample sizes for the alpha samples are as follows:
A.

At each grade, the target student sample size is 5,700 per state. The goal in each state (before
considering the contribution of TUDA districts) is to roughly assess 2,700 student for math
and 2,200 students for reading. The DS session type will be used.

B.

There will be samples for twenty-seven TUDA districts. For the six large TUDA districts
(New York, Los Angeles, Chicago, Miami-Dade, Clark Co., and Houston) the assessed
student target sample sizes are three-quarters the size of a state sample (3,675). The target
sample size after considering attrition is 4,275.

Appendices A-C NAEP 2019-2020

74

C.

For the remaining 21 TUDA districts, the assessed student target sample sizes are half the size
of a state sample (2,450). The target sample size after inflation to account for attrition is 2,850.

D.

Note that, above, there is a conflict between sample size requirements at the state level, and
the TUDA district level. This will be resolved as in previous years: the districts will have the
target samples indicated in B and C, and reflected in Table 3. For the states that contain one
or more of these districts, the target sample size indicated in A (and shown in Table 3) will be
used to determine a school sampling rate for the state, which will be applied to the balance of
the state outside the TUDA district(s). Thus the target student sample sizes, shown in Table 3,
for states that contain a TUDA district, are only ‘design targets’, and are smaller than the final
total sample size for the state, but larger than the sample for the balance of the state, exclusive
of its TUDA districts. In the case of the District of Columbia, the state sample size
requirement is that all schools and students be included. This renders moot any requirements
for the DC TUDA sample, which by default consists of all schools operated by the DCPS
district (but excludes charter schools in DC, even though those are all included in the state
sample, as these are not operated by DCPS).

E.

In Puerto Rico, the target sample size is 4,000 per grade (grades 4 and 8), with the goal of
assessing 3,000 students. Under normal circumstances this target would be set at 3,500, but
because of the rapid and substantial shifts in the school population in Puerto Rico, this has
been increased to provide some insurance against attrition due to closed schools and declining
enrollments.

As in past state-by-state assessments, schools with fewer than 20 students in the grade in question
will be sampled at a moderately lower rate than other schools (at least half, and often higher,
depending upon the size of the school). This is in implicit recognition of the greater cost and burden
associated with surveying these schools.
As mentioned above, the NAEP 2019 design includes an oversample of high proportion American
Indian schools in certain states (as part of the NIES design). These schools will be sampled at higher
rates than the other schools. The NIES oversample will take place in Arizona, Minnesota, North
Carolina, Oregon, Utah, Washington, and Wisconsin. Schools with relatively large percentages of
American Indian students will be separately stratified, as explained below, and oversampled by
factors ranging from 3 to 6 based on state and grade. Table 3 below shows the thresholds used to
define the NIES oversampling strata along with their corresponding oversampling factors.

Appendices A-C NAEP 2019-2020

75

Table 3.

Percent American Indian thresholds and oversampling factors for the NIES school
oversample by state and grade

State
Arizona
Minnesota
North Carolina
Oregon
Utah
Washington
Wisconsin

Grade 4
Percent American
Oversampling
Indian thresholds
factor
50
4
10
5
10
6
10
6
5
6
10
6
10
6

Grade 8
Percent American
Oversampling
Indian thresholds
factor
50
3
10
5
10
6
10
6
5
6
10
6
10
6

Table 4 shows the target student sample sizes, and the approximate counts of schools to be selected
in the alpha samples, along with the school and student frame counts, by state and TUDA districts
for grades 4 and 8. The table also identifies the jurisdictions where we take all schools and where we
take all students. Note that the additional sample that will result from NIES oversampling is not
included in this table.
Table 5 consolidates the target student (and resulting school) sample size numbers, to show the total
target sample sizes in each state, combining the TUDA targets with those for the balance of the
state.

Appendices A-C NAEP 2019-2020

76

Table 4.

Grade 4 and 8 school and student frame counts, expected school sample sizes, and initial target student sample sizes for
the 2019 state-by-state and TUDA district assessments (Alpha samples)
Grade 4

Jurisdiction
Alabama
Alaska
Arizona
Arkansas
Bureau of Indian Education
California
Colorado
Connecticut
Delaware
District of Columbia
DoDEA Schools
Florida
Georgia
Hawaii
Idaho
Illinois
Indiana
Iowa
Kansas
Kentucky
Louisiana
Maine
Maryland
Massachusetts
Michigan
Minnesota
Mississippi
Missouri

Appendices A-C NAEP 2019-2020

Schools
in frame
709
352
1,193
480
137
5,979
1,054
602
119
119
110
2,225
1,248
205
381
2,205
1,050
638
704
721
760
320
903
958
1,711
956
423
1,166

Schools
in sample
120
185
123
121
137
119
123
121
99
119
95
118
115
118
128
124
119
128
132
120
121
147
119
120
123
126
118
129

Students
in frame
57,548
9,361
86,472
36,937
3,357
471,633
67,814
39,544
10,393
5,536
7,547
212,520
133,243
15,494
22,864
149,235
78,837
37,147
37,202
52,221
55,735
13,444
67,399
70,968
111,240
65,262
38,316
69,574

Grade 8
Overall
target
student
sample
size
5,700
5,700
5,700
5,700
3,357
5,700
5,700
5,700
5,700
5,536
5,700
5,700
5,700
5,700
5,700
5,700
5,700
5,700
5,700
5,700
5,700
5,700
5,700
5,700
5,700
5,700
5,700
5,700

**

**

Schools in
frame
456
270
793
303
113
2,933
567
339
61
69
65
1,219
562
83
209
1,561
489
368
393
417
488
202
373
485
1,083
712
287
709

Schools in
sample
118
131
122
114
113
120
121
118
61
69
65
119
115
62
100
123
116
118
125
121
120
112
117
116
123
128
112
127

Students in
frame
55,820
9,019
83,469
36,503
2,936
455,487
65,088
40,679
10,105
4,520
5,629
202,235
129,475
13,314
22,319
151,830
79,653
35,691
36,033
50,755
51,981
13,473
61,983
71,662
114,211
63,732
36,486
67,833

Overall
target
student
sample size
5,700
5,700
5,700
5,700
2,936
5,700
5,700
5,700
5,700
4,520
5,629
5,700
5,700
5,700
5,700
5,700
5,700
5,700
5,700
5,700
5,700
5,700
5,700
5,700
5,700
5,700
5,700
5,700

**

*
**
**

77

Table 4.

Grade 4 and 8 school and student frame counts, expected school sample sizes, and initial target student sample sizes for
the 2019 state-by-state and TUDA district assessments (Alpha samples) (Continued)
Grade 4

Jurisdiction
Montana
Nebraska
Nevada
New Hampshire
New Jersey
New Mexico
New York
North Carolina
North Dakota
Ohio
Oklahoma
Oregon
Pennsylvania
Puerto Rico
Rhode Island
South Carolina
South Dakota
Tennessee
Texas
Utah
Vermont
Virginia
Washington
West Virginia
Wisconsin
Wyoming

Appendices A-C NAEP 2019-2020

Schools
in frame
392
532
394
270
1,371
444
2,471
1,457
261
1,740
869
746
1,607
931
164
643
312
995
4,431
621
216
1,109
1,231
417
1,099
192

Schools
in sample
174
146
119
135
120
128
118
119
166
121
132
128
118
169
111
118
163
120
118
118
216
117
122
138
128
137

Students
in frame
11,534
23,315
35,875
13,734
99,697
26,208
201,226
118,118
8,471
129,087
50,988
43,589
130,442
31,308
10,777
57,878
10,517
77,202
399,283
50,010
6,204
97,550
81,904
20,578
61,686
7,639

Grade 8
Overall
target
student
sample
size
5,700
5,700
5,700
5,700
5,700
5,700
5,700
5,700
5,700
5,700
5,700
5,700
5,700
4,000
5,700
5,700
5,700
5,700
5,700
5,700
6,204
5,700
5,700
5,700
5,700
5,700

**

Schools in
frame
271
294
171
142
765
232
1,498
728
184
1,093
583
428
888
398
60
306
246
584
2,251
256
121
379
609
190
649
89

Schools in
sample
136
114
91
89
118
110
117
117
142
119
127
124
116
161
60
115
135
119
119
113
121
114
122
110
123
89

Students in
frame
10,811
22,561
34,346
14,078
99,117
25,079
196,197
117,176
7,789
131,562
48,784
42,824
131,525
30,211
10,720
54,617
9,657
73,441
383,849
47,320
5,999
95,187
79,084
20,464
61,152
7,042

Overall
target
student
sample size
5,700
5,700
5,700
5,700
5,700
5,700
5,700
5,700
5,700
5,700
5,700
5,700
5,700
4,000
5,700
5,700
5,700
5,700
5,700
5,700
5,999
5,700
5,700
5,700
5,700
5,700

*

**

*

78

Table 4.

Grade 4 and 8 school and student frame counts, expected school sample sizes, and initial target student sample sizes for
the 2019 state-by-state and TUDA district assessments (Alpha samples) (Continued)
Grade 4

Jurisdiction
Albuquerque
Atlanta
Austin
Baltimore City
Boston
Charlotte
Chicago
Clark County, NV
Cleveland
Dallas
Denver
Detroit
Duval County, FL
Fresno
Fort Worth
Guilford County, NC
Hillsborough County, FL
Houston
Jefferson County, KY
Los Angeles
Miami
Milwaukee
New York City
Philadelphia
San Diego
Shelby County, TN
District of Columbia PS

Schools
in frame
95
55
80
128
72
105
433
226
71
151
102
65
119
68
85
74
176
174
100
496
285
111
788
148
120
120
76

Schools
in sample
57
55
56
64
57
57
93
87
71
58
59
55
58
55
57
56
58
86
59
87
88
65
88
58
59
59
76

Students
in frame
7,412
4,285
6,867
6,716
4,086
11,696
27,360
25,311
2,754
13,325
7,108
3,889
10,313
5,788
7,073
5,492
16,522
17,729
7,718
45,361
26,690
5,668
73,248
11,227
9,125
9,250
3,584

Grade 8
Overall
target
student
sample
size
2,850
2,850
2,850
2,850
2,850
2,850
4,275
4,275
2,754
2,850
2,850
2,850
2,850
2,850
2,850
2,850
2,850
4,275
2,850
4,275
4,275
2,850
4,275
2,850
2,850
2,850
3,584

*

**

**

Schools in
frame
40
23
22
96
43
46
434
80
70
41
60
49
50
19
32
29
87
61
43
122
177
83
524
112
38
61
32

Schools in
sample
40
23
22
62
43
35
93
58
70
41
47
49
35
19
32
29
50
49
29
75
82
56
88
54
38
44
32

Students in
frame
6,691
3,554
5,427
5,504
3,667
11,007
27,895
24,676
2,685
10,873
6,060
2,963
8,873
5,147
5,977
5,339
15,096
13,063
7,306
36,142
26,957
4,977
66,513
8,849
7,433
8,277
2,394

Overall
target
student
sample size
2,850
3,554
2,850
2,850
3,667
2,850
4,275
4,275
2,685
2,850
2,850
2,963
2,850
2,850
2,850
2,850
2,850
4,275
2,850
4,275
4,275
2,850
4,275
2,850
2,850
2,850
2,394

*
**
*
**

**
*
**
*
*
*

*
**

Counts for states do not reflect the oversampling for their constituent TUDA districts, nor the impact of oversampling for NIES.

Appendices A-C NAEP 2019-2020

79

Target student sample sizes reflect sample sizes prior to attrition due to exclusion, ineligibility, and nonresponse.
* identifies jurisdictions where all schools (but not all students) for the given grade are included in the NAEP sample.
** identifies jurisdictions where all students for the given grade are included in the NAEP sample.

Appendices A-C NAEP 2019-2020

80

Table 5.

Total sample sizes, combining state and TUDA samples
Grade 4

Jurisdiction
Alabama
Alaska
Arizona
Arkansas
Bureau Of Indian Education
California
Colorado
Connecticut
Delaware
District Of Columbia
DoDEA Schools
Florida
Georgia
Hawaii
Idaho
Illinois
Indiana
Iowa
Kansas
Kentucky
Louisiana
Maine
Maryland
Massachusetts
Michigan
Minnesota
Mississippi
Missouri
Montana

Appendices A-C NAEP 2019-2020

Schools in
frame
709
352
1,193
480
137
5,979
1,054
602
119
119
110
2,225
1,248
205
381
2,205
1,050
638
704
721
760
320
903
958
1,711
956
423
1,166
392

Schools
in sample
120
184
123
121
137
305
169
121
99
119
95
293
166
118
128
194
119
128
132
162
121
147
169
170
174
126
118
129
174

Students
in frame
57,548
9,361
86,472
36,937
3,357
471,633
67,814
39,544
10,393
5,536
7,547
212,520
133,243
15,494
22,864
149,235
78,837
37,147
37,202
52,221
55,735
13,444
67,399
70,968
111,240
65,262
38,316
69,574
11,534

Grade 8
Overall
target
student
sample
size
5,700
5,700
5,700
5,700
3,357
14,945
7,950
5,700
5,700
5,536
5,700
14,238
8,367
5,700
5,700
8,927
5,700
5,700
5,700
7,709
5,700
5,700
7,983
8,222
8,350
5,700
5,700
5,700
5,700

**

**

Schools in
frame
456
270
793
303
113
2,933
567
339
61
69
65
1,219
562
83
209
1,561
489
368
393
417
488
202
373
485
1,083
712
287
709
271

Schools in
sample
117
131
123
114
113
240
157
118
61
69
65
256
135
61
100
194
116
118
125
133
120
112
167
153
168
128
112
127
136

Students in
frame
55,820
9,019
83,469
36,503
2,936
455,487
65,088
40,679
10,105
4,520
5,629
202,235
129,475
13,314
22,319
151,830
79,653
35,691
36,033
50,755
51,981
13,473
61,983
71,662
114,211
63,732
36,486
67,833
10,811

Overall
target
student
sample
size
5,700
5,700
5,700
5,700
2,936
15,064
8,018
5,700
5,700
4,520
5,629
14,238
9,098
5,700
5,700
8,924
5,700
5,700
5,700
7,730
5,700
5,700
8,044
9,076
8,515
5,700
5,700
5,700
5,700

**

*
**
**

81

Table 5.

Total sample sizes, combining state and TUDA samples (Continued)
Grade 4

Jurisdiction
Nebraska
Nevada
New Hampshire
New Jersey
New Mexico
New York
North Carolina
North Dakota
Ohio
Oklahoma
Oregon
Pennsylvania
Puerto Rico
Rhode Island
South Carolina
South Dakota
Tennessee
Texas
Utah
Vermont
Virginia
Washington
West Virginia
Wisconsin
Wyoming
Total

Schools
in frame
532
394
270
1,371
444
2,471
1,457
261
1,740
869
746
1,607
931
164
643
312
995
4,431
621
216
1,109
1,231
417
1,099
192
52,343

Schools
in sample
145
124
135
120
152
164
215
166
189
132
128
166
169
111
118
163
165
361
118
216
117
122
138
181
137
8,314

Students
in frame
23,315
35,875
13,734
99,697
26,208
201,226
118,118
8,471
129,087
50,988
43,589
130,442
31,308
10,777
57,878
10,517
77,202
399,283
50,010
6,204
97,550
81,904
20,578
61,686
7,639
3,831,663

Grade 8
Overall
target
student
sample
size
5,700
5,945
5,700
5,700
6,923
7,899
10,570
5,700
8,332
5,700
5,700
8,059
4,000
5,700
5,700
5,700
7,866
17,881
5,700
6,204
5,700
5,700
5,700
8,024
5,700
369,705

**

Schools in
frame
294
171
142
765
232
1,498
728
184
1,093
583
428
888
398
60
306
246
584
2,251
256
121
379
609
190
649
89
29,024

Schools in
sample
114
91
89
118
123
165
165
142
186
127
124
162
161
60
115
135
149
251
113
121
114
122
110
168
89
7,082

Students in
frame
22,561
34,346
14,078
99,117
25,079
196,197
117,176
7,789
131,562
48,784
42,824
131,525
30,211
10,720
54,617
9,657
73,441
383,849
47,320
5,999
95,187
79,084
20,464
61,152
7,042
3,732,513

Overall
target
student
sample
size
5,700
5,874
5,700
5,700
7,021
8,042
10,604
5,700
8,269
5,700
5,700
8,167
4,000
5,700
5,700
5,700
7,907
17,999
5,700
5,999
5,700
5,700
5,700
8,085
5,700
370,482

*

**

*

Sample sizes for each state do reflect the samples in the TUDA districts within the state, but do not reflect the impact of NIES oversampling.
* identifies jurisdictions where all schools (but not all students) for the given grade are included in the NAEP sample.
** identifies jurisdictions where all students for the given grade are included in the NAEP sample.

Appendices A-C NAEP 2019-2020

82

Stratification
Each state and grade will be stratified separately, but using a common approach in all cases. TUDA
districts will be separated from the balance of their state, and each part stratified separately. The first
level of stratification will be based on urban-centered type of location. This variable has 12 levels
(some of which may not be present in a given state or TUDA district), and these will be collapsed so
that each of the resulting location categories contains at least 9 percent of the student population (12
percent for large TUDA districts and 18 percent for small TUDA districts). In those states with
school oversampling for NIES, the schools to be oversampled will be placed in a separate stratum,
apart from the location strata used for other schools.
Within each of the resulting location categories (with the exception of the NIES oversampling
strata), schools will be assigned a minority enrollment status. This is based on the two race/ethnic
groups that are the second and third most prevalent within the location category. If these groups are
both low in percentage terms, no minority classification will be used. Otherwise three (or
occasionally four) equal-sized groups (generally high, medium, and low minority) will be formed
based on the distribution across schools of the two minority groups.
Within the resulting location and minority group classes (of which there are likely to be from three
to fifteen, depending upon the jurisdiction), and the NIES oversampling stratum in states where this
is applicable, schools will be sorted by a measure derived from school level results from the most
recent available state achievement tests at the relevant grade. In general, mathematics test results will
be used, but where these are not available, reading results will be used. In the few states that do not
have math or reading tests at grades 4 and 8 (or where we are unable to match the results to the
NAEP school frame), instead of achievement data, schools will be sorted using a measure of socioeconomic status. This is the median household income of the 5-digit ZIP Code area where the
school is located, based on the 2016 ACS (5-year) data. For BIE and DoDEA schools neither
achievement data nor income data are available, and so grade enrollment is used in these cases.
Once the schools are sorted by location class, minority enrollment class, and achievement data (or
household income), a systematic sample of schools will be selected using a random start. Schools
will be sampled with probability proportional to size. The exact details of this process are described
in the individual sampling specification memos.

Appendices A-C NAEP 2019-2020

83

2.

Beta Sample

The beta sample comprises the national public school samples at grades 4, 8, and 12. At grades 4
and 8 the beta samples will be used for the national science assessments (PBA and DBA) and for
pilot tests of reading, math, and vocabulary (DBA-only). At grade 12 the beta sample will be used
for the operational reading, mathematics, and science assessments (PBA and DBA). Each of these
samples will be nationally representative, selected to have minimal overlap with the alpha sample
schools at the same grade. The number of students targeted per school will be 62 at grade 4, 63 at
grade 8, and 68 at grade 12.
In order to increase the likelihood that the results for American Indian/Alaskan Native (AIAN)
students can be reported for the operational samples, we will oversample high-AIAN public schools.
That is, a public school with more than 5 AIAN students and greater than 5 percent AIAN
enrollment will be given four times the chance of selection of a public school of the same size with a
lower AIAN percentage. For all other schools, whenever there are more than 10 Black or Hispanic
students enrolled and the combined Black and Hispanic enrollment exceeds 15 percent, the school
will be given twice the chance of selection of a public school of the same size with a lower
percentage of these two groups. This approach is effective in increasing the sample sizes of AIAN,
Black, and Hispanic students without inducing undesirably large design effects on the sample, either
overall, or for particular subgroups.
Stratification
The Beta samples will have an implicit stratification, using a hierarchy of stratifiers and a serpentine
sort. The highest level of the hierarchy is Census division (9 implicit strata). The next stratifier in the
hierarchy is type of location, which has twelve categories. Many of the type of location strata nested
within Census divisions will be collapsed with neighboring type of location cells (this will occur if
the expected school sample size within the cell is less than 4.0). These geographic strata will be
subdivided into three substrata: 1) schools being oversampled for AIAN, 2) schools being
oversampled for Blacks and Hispanics, and 3) low-minority schools not being oversampled. If the
expected sample size in an oversampled substratum is less than 8.0, it will be left as is. If the
expected sample size is greater than 8.0, then it will be subdivided into up to four substrata (two for
expected sample size up to 12.0, three for expected sample size up to 16.0, and four for expected
sample size greater than 16.0). For the oversampling strata, the subdivision will be by percentage
AIAN or percentage Black and Hispanic, as appropriate. For the low-minority sampling strata, the
subdivision will be by state or groups of contiguous states. Within these substrata, the schools are to

Appendices A-C NAEP 2019-2020

84

be sorted by school type (public, BIE, DoDEA) and median household income from the 2016 5year ACS (using a serpentine sort within the school type substrata).

3.

Delta Samples

These are the private school samples at grades 4 and 8 for conducting the operational assessments in
reading and mathematics. The sample sizes are large enough to report results by Catholic and nonCatholic at grades 4 and 8. Approximately half the sample at each grade will be from Catholic
schools. The number of students targeted per school will be 50 at each grade.
Stratification
The private schools are to be explicitly stratified by private school type (Catholic/Other). Within
each private school type, stratification will be by Census region (4 categories), type of location (12
categories), race/ethnicity composition, and enrollment size. In general, where there are few or no
schools in a given stratum, categories will be collapsed together, always preserving the private school
type.

4.

Epsilon Sample

With regard to subjects and grades assessed, this sample is analogous to the beta sample, but for
private schools. However, in contrast to the beta sample, there will be no oversampling of high
minority schools. The same stratification variables will be used as for the delta samples. The epsilon
sample schools will have minimum overlap with the delta sample schools which, given the respective
sample sizes, means that no schools will be selected for both the delta and epsilon samples at the
same grade. The number of students targeted per school will be 62 at grade 4, 63 at grade 8, and 68
at grade 12.

Appendices A-C NAEP 2019-2020

85

IV.

New Schools

To compensate for the fact that files used to create the NAEP school sampling frames are at least
two years out of date at the time of frame construction, we will supplement the Alpha, Beta, Delta,
and Epsilon samples with new school samples at each grade.
The new school samples will be drawn using a two-stage design. At the first stage, a minimum of ten
school districts (in states with at least ten districts) will be selected from each state for public
schools, and ten Catholic dioceses will be selected nationally for the private schools. The sampled
districts and dioceses will be asked to review lists of their respective schools and identify new
schools. Frames of new schools will be constructed from these updates, and new schools will be
drawn with probability proportional to size using the same sample rates as their corresponding
original school samples.
The school sample sizes in the above tables do not reflect new school samples.

V.

Substitute Samples

Substitute samples will be selected for each of the Beta, Delta and Epsilon samples. The substitute
school for each original will be the next “available” school on the sorted sampling frame, with the
following exceptions:
A.

Schools selected for any NAEP samples will not be used as substitutes.

B.

Private schools whose school affiliation is unknown will not be used as substitutes. Also,
unknown affiliated private schools in the original samples will not get substitutes.

C.

A school can be a substitute for one and only one sample. (If a school is selected as a
substitute school for grade 8, for example, it cannot be used as a substitute for grade 4.)

D.

A public school substitute will always be in the same state as its original school.

E.

A catholic school substitute will always be a Catholic school, and the same for non-Catholic
schools.

Appendices A-C NAEP 2019-2020

86

VI.

Contingency Samples

The districts that are taking part in the TUDA program are volunteers. Thus it is possible that at
some point over the next few months, a given district might choose to opt out of the TUDA
program for 2019. However, it is not acceptable for all schools in such a district to decline NAEP,
as then the state estimates will be adversely affected. Thus to deal with this possibility, in each
TUDA district, subsamples of the alpha sample schools will be identified as contingency samples. In
the event that the district withdraws from the TUDA program prior to the selection of the student
sample, all alpha sampled schools from that district will be dropped from the sample, with the
exception of those selected in the contingency sample. The contingency sample will provide a
proportional representation of the district, within the aggregate state sample. Student sampling in
those schools will then proceed in the same way as for the other schools within the same state.

VII.

Student Sampling

Students within the sampled schools will be selected with equal probability. The student sampling
parameters vary by sample type (Alpha, Beta, Delta, and Epsilon) and grade, as described below.
Alpha Sample, Grades 4 and 8 Schools (Except Puerto Rico)
A.

All students, up to 52, will be selected.

B.

If the school has more than 52 students, a systematic sample of 50 students will be selected. In
some schools, the school may be assigned more than one ‘hit’ in sampling. In these schools
we will select a sample of size 50 times the number of hits, taking all students if this target is
greater than or equal to 50/52 of the total enrollment.

Alpha Sample, Puerto Rico Grades 4 and 8
A.

All students, up to 26, will be selected.

B.

If the school has more than 26 students, a systematic sample of 25 students will be selected.

Delta Samples, Grades 4 and 8
A.

All students, up to 52, will be selected.

B.

If the school has more than 52 students, a systematic sample of 50 students will be selected.

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87

Beta and Epsilon Samples, Grades 4, 8, and 12
A.

At grade 4 all students will be selected, up to 70. If the school has more than 70 students, 62
will be selected. Of these students, 50 will be assigned to DBA and the rest to PBA. In
schools with fewer than 21 students, all will be assigned to DBA or all to PBA. In schools
with 32 to 37 students, 25 will be assigned to DBA and the rest to PBA. In all other schools,
25/31 of the students will be assigned to DBA with the rest to PBA.

B.

At grade 8 all students will be selected, up to 70. If the school has more than 70 students, 63
will be selected. Of these students, 50 will be assigned to DBA and the rest to PBA. In
schools with fewer than 21 students, all will be assigned to DBA or all to PBA. In schools
with 31 to 37 students, 25 will be assigned to DBA and the rest to PBA. In all other schools,
50/63 of the students will be assigned to DBA with the rest to PBA.

C.

At grade 12 all students will be selected, up to 75. If the school has more than 75 students, 68
will be selected. Of these students, 38 will be assigned to DBA and the rest to PBA. In
schools with fewer than 20 students, all will be assigned to DBA or all to PBA. In schools
with 32 to 36 students, 19 will be assigned to DBA and the rest to PBA. In all other schools,
19/34 of the students will be assigned to DBA with the rest to PBA.

VIII.

Weighting Requirements

The Operational Reading and Mathematics Assessments, Grade 4 and 8
The sample weights will reflect probabilities of selection, school and student nonresponse, any
trimming, and the random assignment to the particular subject. There will be separate replication
schemes by grade and public/private. Weights will also be derived for the Puerto Rico KaSA
assessment at grades 4 and 8.
The Operational Reading and Mathematics Assessments, Grade 12, and Science
Assessment, Grades 4, 8, and 12
The exact weighting requirements for these samples have yet to be determined. One possibility is
that three sets of weights will be required – for DBA alone, PBA alone, and DBA/PBA combined.
The sample weights will reflect probabilities of selection, school and student nonresponse, any
trimming, and the random assignment to the particular subject. There will be a separate replication
scheme by grade and public/private.

Appendices A-C NAEP 2019-2020

88

Pilot Assessments in Reading, Mathematics, and Vocabulary, at Grades 4 and 8
As is standard practice, only preliminary weights will be provided for these assessments. The sample
weights will reflect probabilities of selection, and the random assignment to the particular subject
(necessary because these assessments are spiraled in with other assessment components).

Appendices A-C NAEP 2019-2020

89