CCSS/NGSS Pilot for Library Summer Reading Club: Informal K-8 STEM Learning as a Bridge for Formal Scholastic Learning

Charles B. Greenberg,
Murrysville Community Library
Nancy R. Bunt,
Math & Science Collaborative
Jamie K. Falo,
Murrysville Community Library
Michael Fierle,
Math & Science Collaborative
Barbara Lease,
Math & Science Collaborative
Corinne Murawski,
Math & Science Collaborative
Gabriela Rose,
Math & Science Collaborative
Cynthia A. Tananis,
Collaborative for Evaluation and Assessment Capacity (CEAC), University of Pittsburgh
Keith Trahan,
CEAC, University of Pittsburgh
Dana Winters,
CEAC, University of Pittsburgh

Abstract

The applied research pilot project of this report seeks to advance K-8 STEM learning by bridging in-school, scholastic learning sessions with informal, out-of-school, summertime learning at public libraries. Professional library programming for children and families around reading and learning is already an integral component of meeting community needs, especially during the summer months when skills can be lost. Annually, and nationally, public libraries have been sharing a themed set of guidelines and activities for Summer Reading Clubs, and activities for K-8 Summer Reading Clubs. The pilot program has been designed to professionally train librarians, administrators, and volunteers for orienting these children, their parents and guardians, to STEM learning in particular, based on scholastic Common Core State Standards (CCSS) in mathematics/English language arts, and Next Generation Science Standards (NGSS). This report describes the activities and progress in the first year of the two-year pilot, including results from an external evaluation.

Introduction

Public Library of the Conflicted Civic Mind

If a community is fortunate enough to have its own public library, that library is often openly associated with civic pride, and, at least within the core body of the library’s users and supporters, with a genuine love of books and reading. For some modern-day cynics, nevertheless, the public library is perceived as only a side street of the new main road paved for the Internet. This paper will demonstrate that such a perception is false; we will show how libraries can reinvent themselves to an even larger educational purpose, one that is integral to scholastic STEM learning, and one that can better withstand cynical views.

The Murrysville Community Library is a non-profit corporation, with a Board of Directors, with its own Articles of Incorporation, with an annual budget plan, and with a strategic plan; it is no different from any other corporation, but because it serves at the pleasure of the community, the conflicting views between user and non-user, book-lover and cynic, impact annual funding and viability. In the state of Pennsylvania, where we serve in the southwest corner, there are 445 such public libraries and twenty-nine Districts into which the libraries are grouped regionally (PDE 2012). Districts sometimes correspond with counties.

On Building a New Model

In our District of twenty-four libraries, the Westmoreland Library Network (WLNTM), we are in the midst of piloting a new model, one that is intended to eventually overcome not only cynical perceptions, but complacency as well, and to fill a societal educational void (Greenberg and Falo 2014–15). This is really the goal of the pilot project. It integrates a summertime, K-8 educational library experience—based on Common Core State Standards in mathematics/English language arts and Next Generation Science Standards—with formal, standards-based, scholastic learning (NGSS 2014; PA Common Core 2012; Widener 2014). The two-year pilot is about bridging fall/winter/spring scholastic semesters with enhanced and more purposeful, standards-based summer programming. This paper is a report on the first year’s activities and progress, including an external evaluation by the Collaborative for Evaluation and Assessment Capacity (CEAC), University of Pittsburgh School of Education.

Background

Library Strengths and Addressing a Weakness

In Pennsylvania, public libraries are well-established, stable resources for information access, reading for pleasure, and informal learning. They operate with a common core of information services. Library Directors and some other staff are trained at the level of a university M.S. Public libraries adhere to specific state library codes, and they operate under the state’s Pennsylvania Department of Education, the Office of Commonwealth Libraries. However, while skilled in reading literacy, staff is rarely trained in STEM subject matter or pedagogy. The two-year pilot project in progress seeks to advance student interest in or disposition towards STEM, along with actual learning and understanding of STEM concepts, by building library staff capacity to include STEM in its programming and to make more connections with CCSS and NGSS standards. It seeks to reach across a full spectrum of learning groups in one large PA county/ District, with rural to suburban to urban population, and also to be comprehensive with respect to gender, race, ethnicity, and economic means.

Summer Reading Club as Central to the Vision

Many public libraries in all fifty states already participate in an organized Summer Reading Club activity, using a nationally themed set of guidelines and activities structured by the Collaborative Summer Library Program (CSLP 2014). For 2014, the designated theme was “Science: Fizz, Boom, Read!,” a first-time explicit focus on science in twenty years of theme-setting. The pilot is designed to take advantage of the established and ongoing reading program and its popularity, as well as the favorable theme. It is doing this by training library staff and key programming volunteers in advance of summer to orient children, parents, and guardians to CCSS/ NGSS learning, under the banner of the Summer Reading Club. The collaborating trainers, who otherwise train scholastic teachers and administrators in their usual role, are Mathematics & Science Coordinators from southwestern PA’s Math & Science Collaborative (MSC), of which more will be said below. Those who are trained then become trainers for all participants, hopefully leading to the lifelong standards-based learning for all that is needed throughout our society.

MSC Trainers and Library Trainees

For eleven counties, 138 public school districts and non-public schools, MSC stands as the area’s comprehensive catalyst for advancement of K-12 STEM learning. MSC’s multifaceted STEM program, by which 1250+ teachers and administrators have received training over about twenty years, has: (1) sustained a teacher culture of lifelong professional learning by the internal sharing of best practices and external enrichment; (2) taught teachers to take more personal responsibility for lifetime professional learning; (3) institutionalized a complex array of professional communication and training networks for teachers, administrators, and institutions of education; (4) established the MSC as a leading proponent for CCSS and NGSS standards. In 2012, the MSC earned the prestigious Carnegie Science Center’s Leadership in STEM Education Award in recognition of its exceptional impact. It is well positioned to repurpose its usual teacher-training model for use in the public library world.

Key trainees include Library Directors, Children’s Librarians, volunteers, and Board Directors. The Directors are important for building administrative support for the initiative; in 2014 four Directors from the Murrysville Community Library (MCL) Board and/or its fundraising MCL Foundation Board participated. The two Boards work closely, even sharing a Strategic Plan; two trainees serve on both Boards. For this first year, Murrysville Community Library was targeted as the particular focus for training, rather than the WLN District as a whole, although participants came from ten libraries in all. In 2015 the emphasis will shift to the WLN District as a whole. MCL’s Library Director and Youth Services Coordinator participated fully.

MCL is a particularly good starting point for the pilot because of its depth of experience and recognized skill in children’s programming. The MCL offers numerous special programs for patrons of all ages, both on-site and off, some seasonally. The Children’s Library was recognized as the 2009 statewide winner of the prestigous PA Library Association’s David J. Roberts EXCEL Library Service Award. Furthermore, the MCL consistently draws about 900 youngsters annually for its Summer Reading Club, which is significant in a service area of about 28,000 people.

Specific Goals and Hypotheses

The project’s specific goals are (1) to incorporate STEM learning in nationally themed K-8 Summer Reading Club programming in public libraries, as well as other children’s programming during the year, as informed by curriculum grade-level standards; (2) to bridge grade-level learning during the otherwise low-STEM content, out-of-school summer months; (3) to make volunteers and family members a part of the learning, so that children and their families realize enrichment in both the library and home settings. The year-one parental experience is limited to on-site observation and/or child engagement at home; more direct training may be possible when staff members are better prepared as trainers themselves.

The research and development hypotheses are that: (1) in-school student STEM learning can be advanced, given continuity, and sustained by repurposing in-school MSC practices to out-of-school children’s programming in public libraries; (2) all children can learn science and mathematics; (3) awareness and knowledge of 21st-century skills for life- long, “life-wide,” and “life-deep” STEM experiences can be fostered in public library settings for family groups.

Methods

Workshops

Eight half-day training workshops were conducted from January through April 2014. Each was led by a pair of staff members from the MSC, most often paired as two Science Coordinators or two Math Coordinators. The workshops included explanative discussion by the Coordinators, hands-on activities, and extensive interactive discussion. The hands-on activities were connected to children’s literature that served as the pathway to important mathematics and/ or science processes and content.

For example, one session focused on number and shape patterns. The MSC facilitator read aloud the story “The Grapes of Math” (Tang 2004). Trainees then worked in small groups to solve a particular riddle from the story. Each trainee group shared its riddle and solution strategy with the other trainee groups. The ensuing plenary discussion focused on the following essential questions:

  • What mathematical or scientific concepts/ideas did the riddles (or activity) illuminate?
  • What insights/ideas did the activity leave with you?
  • With which standards of mathematical practice (or science and engineering practices) and English language arts capacities did the riddles most require you to engage? Why?
  • What are the implications for planning your summer reading program? How might you use a task/story/ac- tivity like this in the summer reading program?

Additional examples of the mathematics and science content of the exercises are summarized in Table 1.

The number of workshop attendees ranged from ten to twenty-two, averaging eighteen. In total, there were thirty-four unique attendees for the purposes of the external evaluation to be discussed below, of which thirty-one were library trainees. The additional three were community leaders with a stake in the outcome (Mayor, Superintendent of Schools, and Assistant Superintendent); these three attended part of one workshop each. The Program Officer and a Board Director from the lead funding agency participated at part of one workshop. The number of workshops attended by library trainees ranged from one to eight, but each workshop was sufficiently illustrative of CCSS/NGSS learning that a trainee could get the main points in one session. In general, additional sessions served to reinforce learning with new math and/or science process/content connections to children’s literature, to be applied during the coming Summer Reading Club.

A Venn diagram from Michaels (2013, 59), showing the CCSS/NGSS standards for mathematical practice, science and engineering practices, and English language arts capacities, was used repeatedly as a thumbnail point of reference. The trainers discussed the fuller descriptions for each set of practices as well. They provided all trainees with more extensive written content in three-ring binders, to which ongoing reference was made. These standards describe the proficiencies being targeted for the trainees, mirroring those exhibited by a mathematically and scientifically literate individual. At every workshop, the appropriate standards were discussed in the context of exemplary, hands-on exercises, each of which was done typically in groups of three or four. The intent was always to help the trainees understand the processes and proficiencies of mathematics and science, including how to reason in a professional way, and how to communicate in an informed way. Thus, the training was about more than just mathematical and scientific content, although that too was embedded in the exercises.

External Evaluation

The MCL contracted with the University of Pittsburgh’s Collaborative for Evaluation and Assessment Capacity to evaluate the 2014-2015 program. Two surveys were constructed to examine the effect of the program on the students and the library staff, administrators, and volunteers who participated in the training, particularly with regard to how their familiarity and understanding of mathematics and science concepts progressed. Training participants were contacted via email to complete the participant survey, while parents of children who participated in the program were asked, via email, to provide the survey to their children and to assist them in its completion. Survey responses addressed the following evaluation questions:

Q1: Do participating library staff, volunteers, and/or third parties develop or extend their knowledge and understanding of STEM content and learning engagement strategies?

Q2: Do participating library staff, volunteers, and/or third parties develop or extend their application of STEM content and learning engagement strategies?

Q3: Do child and adolescent learners engage with STEM concepts and processes in their involvement in the Summer Reading Club and/or their use of the library during summer months?

Q4: Do child and adolescent learners exhibit more positive perceptions of and attitudes toward STEM concepts and processes as a result of their involvement in the Summer Reading Club and/or their use of the library during summer months?

Input data were analyzed using basic descriptive statistics for scaled responses. Qualitative analysis strategies were used for open-ended responses. Sample survey questions are shown in Table 2.

Results

Of the 34 workshop participants who were surveyed by the CEAC, 68% (n=23) responded, all of them library staff/administrator/volunteer trainees (Winters and Wade 2014). As for parents and children who participated in the program, about 6% (n=61) of the total of participants responded to the survey. The key findings from the report are as follows:

Key Findings for the Training Participants
  • Roughly half of the training participants (57%, n=12) had never received any prior professional development in mathematics and/or science.
  • More than two-thirds of respondents (71%, n=15) strongly agreed or agreed that they are better able to answer students’ questions about various STEM concepts and assist families in helping their children to learn and understand math and science.
  • A large majority (81%, n=17) indicated greater confidence in their ability to select more appropriate resources to improve children’s knowledge of mathematics and science.
  • A large majority of respondents (86%, n=18) indicated that as a result of the training they better understood how children think about mathematics and science.
  • Nearly all respondents (90.5%, n=19) indicated that as a result of the training program they could better help children appreciate the value of learning math and science.
  • Nearly all open-ended responses indicated that respondents could better help students to appreciate the value in learning mathematics and science as a result of training participation.
Key Findings for the Students
  • Gender and grade level seemed to be non-factors for student enjoyment of Summer Reading Club; however, girl respondents indicated a greater interest in science than boy respondents as a result of participating in the Science: Fizz, Boom, Read! program (girls: 80%, n=24; boys: 61%, n=19).
  • More than three-quarters of student respondents (77%, n=47) had previously participated in library programs.
  • Over half of the students (54%, n=32) indicated that, as a result of participating in Science: Fizz, Boom, Read! they understood science better.
  • Almost three-quarters of student respondents (73%, n=43) indicated an increased interest in science as a result of the Science: Fizz, Boom, Read! program.
  • Over half of student respondents (51%, n=30) indicated that they would use the library to learn more about science. Of these 30 students, 53% (n=16) indicated that they were more inclined to ask librarians questions about science.
  • A large majority of student respondents (81%, n=48) stated that they wanted to attend more programs about science and were more interested in science experiments as a result of the Science: Fizz, Boom, Read! program.

Discussion and Summary

Although the above results represent only the earliest product of what is perceived to be a multiyear and ongoing growth process, they are entirely positive and encouraging. Both trainees and students affirmed the multiple benefits to their relationships with STEM from the experience. The responses are consistent with the earlier brief report of Greenberg and Falo (2014–15), made before CEAC’s external evaluation was done. Certain early outcomes are noted in that report. The most important are these: (1) children’s librarians from multiple libraries began immediately to plan together for the year’s Summer Reading Club, which they had not done before; (2) librarians expressed appreciation for having had identified for them STEM children’s books of high value and credibility; (3) as a given, for the first time, there is now an ongoing working collaboration among scholastic trainers and librarians (as evidenced now by the co-authorship of the present report).

In the second-year Summer Reading Club 2015 timeframe, the K-8 theme is known to be Every Hero Has a Story. This theme is not explicitly science-based, as was the year-one theme, but it does still serve as a framework for introducing STEM content. Indeed, every theme can be made to include STEM content. In this case, some of the heroes will actually be scientists, mathematicians, or engineers. Some will be non-scientists who use STEM. For example, a fireman hero learns to extinguish fires using chemical combustion principles. Similar strategies can be applied generally for topics yet unnamed in subsequent years. In that way, as librarians gain knowledge and skills, they will continue to create programs and provide informed resources that encourage patron interaction with STEM concepts, even while continuing to promote reading skills and language arts.

In 2014, a first step was taken to introduce the pilot and its intent to the Superintendent of Schools and the Assistant Superintendent for Murrysville. This was done through their participation as trainees and by off-site exchanges. Each participating library will need to make this an ongoing effort. Finally, returning to the question of whether the public library has become just a side street to the main Internet thoroughfare: it has not, or at least it should not have done so, for one main reason. The Internet is a place to find everything, both information that is informed, correct, and professionally referenced, and information that is not. This goes to the matter of quality of information, and consistency with respect to quality, and, in the case of STEM subjects, adherence to the scientific approach itself. Thus, the Internet has an inherent weakness. Anyone can add information to it, and do so without rules as to quality, and no one is responsible for showing the reader or user how to differentiate. With proper training, the same is not true of public libraries; a well-trained and present staff can make the difference, for using both the local collection and the Internet. The first year of this project has shown that staff consciousness has been raised in respect to choosing quality STEM resources for collection-building and programming, including Summer Reading Club programming. This outcome alone convinces us that we are on the right track with this project.

Our goal for the second year of sponsored training is to expand participation within our District to a broader population of staff members, administrators, and volunteers, including both new and repeat participants. We have also arranged to have at least one participant from a contiguous District attend a training session, with the purpose of possibly expanding the program to her District. Ultimately, depending on outcomes, we imagine at least a statewide presence for STEM training, with goals similar to those of this pilot.

About the Authors

Charles B. Greenberg is retired Corporate Fellow and Manager of Flat Glass New Product Development for PPG Industries, Inc., with expertise in glass, solar control, thin films, switchable materials, and photocatalysis for self-cleaning. He earned a B.S. from Rutgers University and a Ph.D. and M.S. from the University of Illinois, all in Materials Science/Engineering. Since retirement in 2002, he has been dedicated to several special K-12 to senior learning initiatives relating to STEM and has served on various education and library Boards/Councils. For purposes of the present article, he is a Director and Im- mediate Past President of the Murrysville Community Library Board, as well as the Westmoreland Library Network’s Treasurer, Immediate Past President, and representative on the Math & Science Collaborative Steering Council.

Nancy R. Bunt is Program Director of southwestern Pennsylvania’s Math & Science Collaborative, headquartered at the Allegheny Intermediate Unit. She also served concurrently as MSC’s Principal Investigator for a $20 million Southwest Pennsylvania Math Science Partnership funded by the NSF and the PA Dept. of Education. She has led the Collaborative in the coordination of efforts to focus K-16 and informal learning resources on strengthening the teaching and learning of mathematics and science for all 138 K-12 school districts in the 11 counties surrounding and including Pittsburgh. Bunt is a certified teacher and administrator who has worked in urban and suburban settings in Pennsylvania and in Europe. She earned her undergraduate degree from the University of Michigan, and her masters and doctorate from the University of Pittsburgh.

Jamie K. Falo has been Library Director for the Murrysville Community Library in Murrysville, PA since 2011, following nine years as Library Director for the Mount Pleasant Public Library in Mount Pleasant. She earned her B.S. and M.L.I.S. from the University of Pittsburgh. Jamie is an active member of the Pennsylvania Library Association (PaLA), serves in various positions of governance for the Westmoreland Library Network, and serves on the Franklin Regional School District Act 48 Committee. Jamie presented a poster about aspects of this paper at the 2014 PaLA Southwest Regional Summer Reading Club Conference.

Michael Fierle is certified in Secondary Mathematics Education, Supervisory-Mathematics, and K-12 Principal. He completed his undergraduate studies at Indiana University of PA, and then attended the University of Pittsburgh where he earned his M.Ed. by completing the Administrative and Policies Studies program. His teaching experience includes eight years as a middle/ high school mathematics educator in various school systems in PA and VA. As a Mathematics Coordinator with the Math & Science Collaborative for the past ten years, he has provided direct math professional development to school districts and educators throughout southwestern PA, as well as support for regional STEM Professional Learning Communities (PLCs).

Barbara Lease has been in education for 24 years and is currently a Science Coordinator with the Math & Science Collaborative. Barbara earned a B.S. in biology from Allegheny College, did graduate work at the University of Pittsburgh in human genetics, and was certified as a biology teacher through Seton Hill University. Previously, Barbara worked as biology and mathematics instructor for Mater Dei College in Ogdensburg, New York, as a professional development coordinator at the Carnegie Science Center, Pittsburgh, and as a secondary science teacher in the Pittsburgh area’s Penn Hills School District.

Corinne Murawski is a Mathematics Coordinator with the Math & Science Collaborative and a mother of two daughters, ages 4 and 9. Corinne earned her undergraduate degree from Penn State University, and her Masters degree in Education Policy Studies and a K-12 Supervisory Certificate from Duquesne University. Previously, Corinne worked as a district-level administrator for supervision of mathematics/computer science; as a curriculum, textbook, and cognitive tutor developer; and as a classroom teacher in mathematics and science. Corinne has worked with the University of Pittsburgh to supervise pre-service mathematics teachers, and she has also taught undergraduate and graduate courses both face-to-face and online.

Gabriela Rose is a Science Coordinator for the Math & Science Collaborative at the Allegheny Intermediate Unit in Pittsburgh, PA. In this position she is working with science teachers and administrators to implement rigorous inquiry-based science instruction with the goal of preparing all students for college and career in the 21st century. Before coming to the Allegheny Intermediate Unit, Gabriela taught middle school science. Gabriela holds certification for Biology 7–12, Middle Level Science, K-12 Principal, and Supervisor for Curriculum and Instruction. Gabriela earned her undergraduate and graduate degrees in biology and physical education at the Free University of Berlin, and a Master of Science in Ecology from the University of California at Davis.

Cynthia A. Tananis founded the Collaborative for Evaluation and Assessment Capacity in the School of Education at the University of Pittsburgh and serves as its Director and as an Associate Professor in the School Leadership Program. Her expertise focuses on using participative evaluation designs with involved stakeholders, helping people make sense of and benefit from the evaluation process through collaboration, and linking evaluation studies and school reform policy. She holds a B.S. in Education and an Ed.D. in Policy, Planning, and Evaluation Studies, both from the University of Pittsburgh.

Keith Trahan serves as the Assistant Director of CEAC. Keith has been lead evaluator for a variety of programs in the areas of K-12 math and science reform and school leadership, IHE STEM curriculum, instruction, and learning, IHE international education, and community-based human services. He holds a B.A. in Government and a B.A. in Sociology from McNeese State University, an M.A.T. from Charleston Southern University, and a Ph.D. from the Social and Comparative Analysis in Education Program at the University of Pittsburgh.

Dana Winters serves as Senior Evaluator for CEAC. Dana has experience leading evaluations throughout PK-16 formal education, large-scale STEM and literacy reform initiatives, informal education, and community-based non-profit evaluation. Dana has a B.A. in Sociology and Political Science from Saint Vincent College and a M.A. in Student Affairs in Higher Education from Indiana University of Pennsylvania. She is currently a doctoral student in the Social and Comparative Analysis in Education Program at the University of Pittsburgh.

References

CSLP®, Collaborative Summer Reading Club. 2014. “Fizz Boom ReadTM,” http://www.cslpreads.org (accessed October 17, 2014).

Greenberg, C.B., and J. Falo. 2014–15. “CCSS/NGSS Pilot for Summer Reading Club 2014–2015.” Math & Science Collaborative Journal 20: 28–29. http://www.aiu3.net/uploadedFiles/Teaching_and_Learning/ Math_and_Science_Collaborative/2014-2015%20Journal%20(com- plete).pdf (accessed January 14, 2015).

Michaels, Sarah. 2013. “What’s Common Across the Common Core (ELAS and Math) and the Next Generation Science Standards?” Presentation of NSTA WEB Seminars: Live Interactive Learning @ Your Desktop. http://learningcenter.nsta.org/products/sympo- sia_seminars/NGSS/files/ConnectionsBetweenPracticesinNGSS- CommonCoreMathandCommonCoreELA_2-12-2013.pdf (accessed January 14, 2015).

NGSS, Next Generation Science Standards. 2014. http://www. nextgenscience.org/next-generation-science-standards (accessed January 14, 2015).

PA Common Core. 2012. http://www.pa-commoncorestandards.com (accessed January 14, 2015).

Pennsylvania Department of Education. 2012. Office of Commonwealth Libraries. “Library Statistics.” http://www.portal.state.pa.us/portal/ server.pt/community/library_statistics/8696 (accessed January 14, 2015).

Tang, G. 2004. The Grapes of Math. New York: Scholastic Paperbacks. Widener, A. 2014. “A New Standard.” Chemical & Engineering News 92(35): 43–45.

Winters, D.M., and K.T. Wade. 2014. “Librarian/volunteer and Student Surveys for Murrysville Community Library’s CCSS/NGSS Pilot for Summer Reading Club.” Collaboration for Evaluation and Assessment Capacity (CEAC). September Report, School of Education, University of Pittsburgh.

Notes

  • The authors thank the Community Foundation of Westmoreland County (affiliated with The Pittsburgh Foundation) for its lead support in the project. They also are grateful to the following key supporters: the Community Foundation of Murrysville, Export, and Delmont; PPG GIVE Award; the Lulu Pool Trust, managed by First Commonwealth Bank; Lakshmi Gupta.
  • Cole, A. Ruiz, and B. Degen. 1998. The Magic School Bus Plays Ball: A Book About Forces. New York: Scholastic Paperbacks.
  • EIE, Engineering is Elementary. 2014. “The Engineering Design Process.” http://www.eie.org/overview/engineering-design-process (accessed January 14, 2015).

FOSS, Full Option Science System. “Investigation 1: Balance.” http:// www.lyvemedia.com/delta/grade/2/balance_and_motion/investi- gation_1/balancemotion_inv1_background.html (accessed January 14, 2015).

Home Experiments on scifun.org. 2012. “Dancing Raisins.” http:// scifun.chem.wisc.edu/homeexpts/HOMEEXPTS.HTML (accessed January 14, 2015).

ICE, Institute for Chemical Education. 2012. “Is Black Really Black?” and“The Mystery Pen.” http://ice.chem.wisc.edu/SSC/SSC_ Color.pdf (accessed January 14, 2015).

Keeley, P., and J. Tugel. 2009. Uncovering Student Ideas in Science, Volume 4: 25 New Formative Assessment Probes for Grades K-2. Chapter 15. Arlington, VA: NSTA Press.

Keeley, P. 2013. Uncovering Student Ideas in Primary Science, Volume 1: 25 New Formative Assessment Probes for Grades K-2. Chapter 14. Arlington, VA: NSTA Press.

MARS, Mathematics Assessment Resource Service. 2003. “Buttons.” http://www.cfn609.org/uploads/4/6/9/6/4696562/task_-_ buttons_mars2003-05.pdf (accessed January 14, 2015).

Math Solutions. 2009. “Literature-Math Connection—Moira’s Birthday.” http://mathsolutions.com/documents/Moiras_ Birthday_i34.pdf (accessed January 14, 2015).

Munsch, R. 1992. Moira’s Birthday. Toronto: Annick Press.

Project Wet International Foundation. 2009. Discover Floods Educators Guide: 9. “Incredible Journey.” http://www.apfm.info/edu- cation/kids/WET_Discover_Floods_Ed_Guide.pdf (accessed January 14, 2015).

Robertson, W. 2014. “Science 101: What Causes Friction?” Science & Children (May–June). 60–62.

Tang, G. 2004. The Grapes of Math. New York: Scholastic Paperbacks. The Inquiry Project: Seeing the World Through A Scientist’s Eyes. 2011. “What Causes the Water Level to Rise?” http://inquiryproject. terc.edu/curriculum/curriculum4/4_mineralmaterials/inv4_1 (accessed January 14, 2015).

Yang, L. 2007. “A Cool Glass of Water: A Mystery.” http://sciencecases. lib.buffalo.edu/cs/files/melting_ice.pdf (accessed January 14, 2015).

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