## Archive for the ‘*SY 2015-2016’ Category

### How to Create an Anchor Activity Using a Tic/Tac/Toe Board

Thursday, February 25th, 2016

AUTHOR: Virginia Keasler and Mary Headley, Math Specialists

How do we teach math to the wide range of diverse learners in today’s classroom? It is often difficult to match the readiness levels of every student and knowing where to start can be a challenge. Consider starting simple and celebrating successes along the way. Anchor activities can help you reach the diverse population in your classroom.

What are anchor activities? These activities are used for students to extend learning at their level. Student choice within these activities allows for students to apply and experience the learning in a variety of ways.These ongoing assignments are considered independent work and can be something students are working on for the next two weeks or something due in a few days. While some students are working on anchor activities, the teacher can utilize small group instruction to work with students who need more help.

Tic/Tac/Toe Boards: The content for this anchor activity can be modified to meet the needs of students at varied levels. Teachers may use Tic/Tac/Toe boards for extension, assessment, or as homework choices for the week. On a Tic/Tac/Toe board, the teacher can strategically place activities to enable students to get a Tic/Tac/Toe that demonstrates their learning.

Helpful Hints for creating a Tic/Tac/Toe board:

1. Determine the content/topic for the board.
2. Brainstorm activities, assignments, and products for the content/unit you have chosen.
3. Check TEKS alignment.
4. Write ideas on post-it notes.
5. Sort activities based on learning styles (verbal, auditory, kinesthetic, etc…)
6. Place post-it notes on the Tic/Tac/Toe grid.
7. Check the configuration for variety to achieve a Tic/Tac/Toe. Move as needed.
8. Type idea onto the Tic/Tac/Toe grid.

The following table gives an example of a Tic/Tac/Toe board for reviewing a math unit:

 Explain the math steps that you would use to solve a problem from this unit Solve two of the problems in the “extensions” station Using the “beat” of a popular song create your own math song. See the choice board station for rules Create two word problems that go with the concepts in this unit Student Choice Activity (with teacher approval) Define the unit’s vocabulary words with your own form of graffiti Complete one mini-project from the project board Develop a game using skills you have learned in this unit Research and write how these concepts might be used in the real world

Variations:

• Allow student to complete any three tasks–even if it does not make a Tic/Tac/Toe
• Create different choice boards based on readiness (Struggling students work with options on one choice board while more advanced students have different options.)
• Create choice board options based on learning styles or learning preferences. For example a choice board could include three kinesthetic tasks, three auditory tasks, three visual tasks.

Author Rick Wormeli offers the following Tic/Tac/Toe board based on Gardner’s (1991) multiple intelligences.

To access a blank choice board to use in your classroom click on the following link: Blank Choice Board

Reference:

Wormeli, Rick. Fair Isn’t Always Equal: Assessing & Grading in the Differentiated Classroom. Portland, ME: Stenhourse 2006, pages 65-66

### Preparing for the Reading and Writing STAAR the Smart Way

Thursday, February 25th, 2016

AUTHOR: Janet Hester, Secondary ELAR Specialist

Begin at the Beginning: The STAAR-Prep Dilemma

What do we do when students enter our classrooms lacking confidence and fluency in writing? For many schools and districts in Texas, the attempted answer to this skills deficit has been to drill students on writing the STAAR tasks over and over again. Twenty-six lines, over and over. And in the same manner, practice multiple choice reading and writing packets over and over again. Test-prep passage and multiple choice bubbles, over and over.

We know that such practice does not raise confidence and fluency in writing and reading. Students might improve in jumping through a very specific hoops when they are challenged to write 26 lines of expository text repeatedly, but their versatility as writers and their confidence and joy in writing will have be the price they pay for this act. In the same manner, when we curtail our engaging reading instruction for packet work, we may stunt our students’ growth. Traditional STAAR prep has led to slightly more prepared, but very burnt-out students.

We all know this. But, without these traditional practices, we are sometimes stuck on how to create a transference of skills on test day.

Transitioning to STAAR: The Test as Genre Unit

When we begin to prepare students for STAAR reading and writing tasks, we should not throw out all the good work that has come before in instruction, much of which has been presented through a reading and writing workshop model for many Region 13 teachers.

The Test as Genre Unit is a tried-and-true method of preparing students for standardized tests while building on what has already transpired in classrooms. It is a riff played on the Genre Study Unit through which many schools deliver ELAR instruction. If your curriculum is grouped in units by genre, instruction was delivered as a genre study. Students read and wrote fiction pieces in one unit of study. Students read and wrote persuasive pieces in another unit of study. Most definitely, students read and wrote expository texts in the expository unit.

Katie Wood Ray in Study Driven details a Genre Study Unit cycle:

 Stage Description Gather Texts The teacher, sometimes along with students, gathers examples of the kind of writing students will do. Setting the Stage Students are told they will be expected to finish a piece(s) of writing that shows the influence of the study. Immersion The teacher and students spend time reading and getting to know the texts they’ll study. They make notes of things they notice and about how the texts are written. They think about the process writers use to craft texts like the ones they are studying. Close Study The class revisits the texts and frames their talk with the question, “What did we notice about how these texts are written?” The teacher and students work together to use specific language to say what they know about writing from this close study, developing curriculum as they go. The teacher, through modeling, takes a strong lead in helping students envision using what they are learning in their own writing. Writing Under the Influence Students (and often the teacher) finish pieces of writing that show (in specific ways) the influence of the study.

(Wood Ray, 2006, p. 111)

In our schools, this cycle might look a little different. Teachers might weave the different stages of the cycle together so they take place simultaneously. Due to scheduling in some middle school classes, students might also experience the different stages in separate reading and writing classes. However, most students will have experienced this sequence of reading in a genre and then emulating craft moves they learned to write in that genre.

When students have been immersed in reading and writing in different genres throughout the year and the STAAR test is drawing near, they are ready to begin a Test as Genre unit. A Test as Genre unit follows the same methodology as other genre units. Students immerse themselves in the genre of the test, reading passages from released tests as well as reading and discussing the types of multiple–choice questions they will have to answer. Students explore the writing tests’ tasks and prompts. As a result, they slowly begin to build a rapport with the standardized test. In this case, familiarity breeds confidence. Randy Bomer, the director of the Heart of Texas Writing Project, describes his process:

“I like to throw a huge pile of tests onto a table and invite students to browse through them and see what they notice in them. I want them to see tests not as something fearsome that controls their fate but as a dime a dozen, common as can be, which they are. I want to position the students as powerful, intelligent analyzers of these kinds of texts.” (Bomer, 2011, p. 285)

After this close study, students write passages and questions that imitate the released tests they studied following the Katie Wood Ray cycle from above. Students study writing prompts and write their own. When students have been reading like writers all year in other genre inquiry units, the Test as Genre is a logical next move in preparation for the test. They have been reading like writers all year in other genre inquiry units, reading like poets, reading like op–ed journalists, reading like short-story writers. Now, in the Test as Genre unit, they read like test makers, practicing the reader and writer moves they have been honing all year (Atwell, 2002; Bomer, 2004; Bomer, 2011; Fletcher & Portalupi, 2001; Serafini; Taylor, 2008). Region 13 will hold a full-day, just-in-time workshop on implementing this type of unit on February 29, 2016.

Using the Region 13 Elementary and Secondary Playbooks as Part of the Test as Genre Unit

In the weeks leading up the tests, not only are students analyzing passages and multiple choice questions from both the reading and writing tests; they should also be honing in on the specific expository writing craft they will need to write a satisfactory essay on the day of the test.

With respect to the STAAR expository writing tasks, the Region 13 Product Store now sells two products that will help the accomplished and the novice teacher alike. The Elementary and Secondary Expository Playbooks offer immediate tools and strategies for a Grade 4 and English I teacher.                                                                                                                                                                                                                                                                                    The Elementary Expository Playbook breaks down the five components of STAAR expository writing: Focus, Organization, Idea Development, Progression, and Language and Conventions.

For each component, the playbook provides a chapter outlining

• the fundamentals of what each component means in the context of the STAAR expository task;
• two published mentor informational texts that powerfully demonstrate the chapter’s component (for example, a mentor text that employs a strong problem/solution organizational structure in the Organization chapter);
• four STAAR expository students essays to demonstrate strong and developing examples of that writing component; and
• several plays, or instructional strategies, to use to improve that writing component in student writing. All plays begin with the writer in mind and inspire confidence and transfer of skills on test day.

Often, teachers do not have the time to find specific mentor texts to demonstrate the skills they wish their students to emulate. The Playbook saves so much time, in that published mentor texts, strong student examples, and weaker student examples are already there, organized under specific instructional targets with helpful teacher commentary.

The Secondary Playbook follows the same pattern of including content, mentor texts, and student essays that align to the English I expository task. Grade 7 writing teachers will definitely find support for the Test as Genre unit in either playbook.                                                                                                                                                                                                                                            When preparing students for STAAR, we must instill a cheerful attitude that builds upon the skills students certainly have. Asset-based instruction reminds students of all their world knowledge and invites the students to bring this knowledge into the standardized writing and reading tasks.

Janet Hester
Secondary ELAR Specialist
janet.hester@esc13.txed.net

Laura Lee Stroud
Elementary ELAR Specialist
lauralee.stroud@esc13.txed.net

Sources:

Atwell, N. (2002). Lessons that change writers. Portsmouth: Heinemann.
Bomer, R. (2004). Strong enough for tests and life. College Board Review, 41-43.
Bomer, R. (2011). Building adolescent literacy in today’s English classrooms. Portsmouth: Heinemann.
Fletcher, R., & Portalupi, J. (2001). Writing workshop: The essential guide. Portsmouth: Heinemann.
Serafini, F. (n.d.). Standardized tests as a genre. Retrieved from www.frankserafini.com: http://www.frankserafini.com/classroom-resources/standardized-tests-as-a.pdf
Taylor, M. M. (2008, Spring/Summer). Changing the culture of “test prep”: Reclaiming writing workshop. Language Arts Journal of Michigan, 23-34.
Wood Ray, K. (2006). Study driven: A framework for planning units of study in the writing workshop. Portsmouth: Heinemann.

Content in this article addresses T-TESS Planning dimension 1.3 – Knowledge of Students and Instruction dimension 2.2 – Content Knowledge and Expertise.

### Teaching Science in the Early Childhood Classroom

Thursday, February 25th, 2016

AUTHOR: Aliza Rivera, Early Childhood Specialist

I can remember when the idea of teaching science to a room full of 4 year-olds terrified me. My fear often led to science activities that were either “safe,” not messy, or often underdeveloped. Students tended to overlook my science center and it was not utilized enough by my young students. I can even recall a memory where I encouraged my students to look, but not touch. Sound familiar? You are not the only one.

Leo F. Buscaglia states, “It is paradoxical that many educators and parents still differentiate between a time for learning and a time for play without seeing the vital connection between them.” For the longest time I was in denial of the idea that young children already come to school with an innate sense of natural curiosity about the world and how it works. I had to work on my ability to understand the different ways that young children play. I often had to stop what I was doing, listen to what my students were saying and reflect on their subsequent actions through the different play opportunities planned throughout the day. By doing this, I came to understand and conquer my fear of teaching science. I found that my fear was based on a personal struggle of not understanding how play activities connected with content knowledge and how they could come to support young children’s learning of science naturally through play.

Realizing that science is everywhere and that it can be integrated into the curriculum in a variety of ways, I began to develop a deeper understanding of essential scientific ideas rather than a superficial acquaintance of isolated facts. I embraced the opportunity in allowing my young students with sufficient time to develop a deeper understanding for the world around them.  When I began to allow more time for my students to explore, it provided me with the opportunity to observe the capacity to which the play became more complex.  When I engaged in play with my students, I began to understand the opportunities in which to question the understanding of my student’s thinking patterns and to acknowledge the different content areas they were experiencing.  When my students demonstrated to me a variety of skills that could be seen universally across content areas, then I introduced additional materials that supported my student’s’ natural sense of inquiry.

These observable skills included:

• exploring objects, materials, and events
• making observations
• engaging in simple investigations
• describing (including shape, size, number), comparing, sorting, classifying and ordering
• recording observations by using words, pictures, charts and graphs
• working collaboratively with others
• sharing and discussing ideas
• listening to new perspectives (Hamlin & Wisneski, 2012)

Teachers, just like myself, who utilized inquiry and science in the early childhood classroom came to the realization that it built a natural pathway that allowed them to understand and value the thinking processes of the young learner. In doing so, they used their students’ thinking processes as learning experiences in helping guide their students to uncover explanations that were closer to a scientific idea than simply learning through isolated facts (Hamlin & Wisneski, 2012)  Developing inquiry in an early childhood classroom can transform a class from a collection of individuals into a community of learners that openly share their interpretations of the natural world around them (Worth & Grollman, 2003). Research has shown that such learning experiences can help children reform and refine their theories and explanations—to learn how to think through their ideas, to take risks and ask additional questions, and to reconsider their ideas on the basis of others’ views (Vygotsky, 1962).

Science is part of our everyday lives. How can teachers use play as opportunities to engage young learners in scientific inquiry? The key is in the types of experiences teachers create for young learners and how well they support children during play. Fostering a young child’s natural sense of inquiry is essentially building a strong foundation for the ongoing development of many cognitive skills across content areas (Worth & Grollman, 2003).

Sources:

Hamlin, M., & Wisneski, D. B. (2012, May). Supporting the Scientific Thinking and Inquiry of Toddlers and Preschoolers through Play. Young Children, 67(3), 82-88.

Vygotsky, L.S. (1986). Thought and Language. Cambridge, M.A.: The MIT Press.

Worth, Karen & Grollman, Sharon. (2003). Worms, shadows, and whirlpools: Science in the early childhood classroom. Portsmouth, NH: Heinemann.

### Anchor Charts: Let the Walls Teach

Thursday, February 25th, 2016

AUTHOR: Esmeralda Alday, Bilingual

One of the first things I notice when I walk into a classroom is a teacher’s use of wall space. Having always taught multiple grade levels – in some of the smallest classrooms on campus – in one school year, I had to learn how to maximize the little wall space I had available. I learned a few weeks into my first year teaching that as glossy and sleek as the content-area and motivational posters (think that ubiquitous “Hang in There” kitten) I purchased for my classroom were, or how well-decorated my classroom was the week before school was even back in session, very little of what was on my walls was actually useful for my students in reinforcing the concepts, skills, and academic vocabulary I was working so hard to teach them. Sadly, it took a few more years for me to discover the magic of anchor charts.

What I’ve learned over a decade in this profession is that when used correctly, anchor charts are one of the most effective, engaging, and student-friendly ways to support instruction through reinforcing key concepts, skills, and vocabulary. One good anchor chart can not only replace an entire word wall, it can make the connections between concepts and terms visibly come to life for students. A great anchor chart can truly be like having another teacher in the classroom. Students can review the steps of a skill, strategy, or process during guided or independent practice using cues from an anchor chart (Harmon & Marzano, 2015).

So what exactly is an anchor chart and what constitutes a quality anchor chart design? If an anchor is “a source of stability and security, used to hold something in place”, then an anchor chart is a sort of classroom artifact or record that provides a visual reference or cues to support students as they progress in their learning throughout the course of a unit or topic (Seger, 2009). Simply stated, anchor charts make the teacher’s instruction “clearly visible to students” (Newman, 2010). They are visual reminders of current learning for all students and are indispensable for English Language Learners who benefit immensely from visual cues for academic concepts and vocabulary.

Above: https://www.pinterest.com/pin/559 1

The following are some helpful tips for creating and maximizing the quality and effectiveness of your anchor charts. A quality anchor chart is:

• Relevant – Include only the most relevant/key information to keep from confusing students.
• Clear – Make the chart as clear, neat, and organized as possible.
• Focused – Stick to one focus per chart to avoid overwhelming students.
• Evolving – Allow the chart to evolve throughout the course of a unit by adding information learned as the unit progresses.
• Integral/Useful – Refer to the anchor chart frequently to model its use for students.
• Prominent – Display the chart where in a prominent place in the classroom where all students can see it.
• Current – Focus on  only displaying charts that deal with what is currently being learned in order to eliminate clutter.
• Vibrant – Make the anchor chart colorful and easily visible using dark colors.

Sources:

Newman, L. (2010, October). Anchor Charts: Making Thinking Visible. Retrieved from Expeditionary Learning: https://www.engageny.org/sites/default/files/resource/attachments/anchor_charts.pdf

Harmon, K., Marzano, R.J., (2015). Practicing skills, strategies, & processes: Classroom techniques to help students develop proficiency. West Palm Beach, FL: Learning Sciences International.

Thursday, February 25th, 2016

AUTHOR: Leslie Barrett, Education Specialist: Instructional Technology & Library Media Services

Are we meeting the mark when it comes to preparing students for success in their post-graduate lives?

Tony Wagner, Expert In Residence at Harvard University’s Innovation Lab, wondered the same thing. He conducted interviews with leaders in major global businesses, non-profits, and government institutions and discovered that students regularly fall short in seven specific skill areas that are essential for success in today’s innovation-centric economy. As you read through Wagner’s seven “survival” skills below, consider what practices you can implement or enhance in your classroom, campus, or district to help your students become future ready.

Critical Thinking & Problem Solving

According to Wagner’s definition, critical thinking is the ability to ask the right questions. Are we asking questions that require little more mental consideration than a Google search on a student’s smart phone? The use of Document Based Questions (DBQs ) in social studies and the Claim Evidence Reasoning (CER) framework in science are two ways to help students develop critical thinking skills in the context of content area instruction. When too many of our questions result in one right answer out of a possible 4 multiple choice options, we are missing opportunities to engage students in rich conversations in which they explain their thinking and justify their reasoning.

In seeking solutions to problems, employees in the workforce will rarely work in isolation. They will be expected to collaborate with peers within organizational teams and access the input of a network of professional experts from across the globe. In contrast, the measure of success in our classrooms is based on the performance of the individual working alone. While we can’t always change our testing and grading structure, we can create opportunities for students to work in collaborative groups that are structured so that each member of the group is held accountable for his/her contribution. In addition, we can teach students how to safely access the input of experts using digital connections like social media and virtual conferencing.

We are living in a fast-paced and quickly changing time. Information, technology, and the problems organizations are working to solve are constantly changing. Employees need to be able to change alongside the demands of the job and adapt easily to new and evolving circumstances. Are we providing flexible learning environments that encourage students to identify and adapt elements that contribute to their maximum productivity? Are we creating opportunities for students to iterate; to observe and improve their own output? How often do we say to students, “Oh, that didn’t work. What other ideas do you have?”

Initiative & Entrepreneurism

An entrepreneurial spirit means harnessing opportunities and capitalizing on strengths to create products and services to fill needs. How often do we give students the freedom to think outside the box and provide innovative and creative ways to demonstrate their understanding of academic concepts? How often do we let them offer solutions to problems that may be occurring in the classroom, the school, the world? If we are always telling them what to do, how will they develop initiative and the ability to meet needs on their own?

Effective Oral & Written Communication

Through his research, Wagner discovered that students entering the workforce are severely deficient in their ability to speak and/or write. The problem is less about grammar and mechanics and more about students being unable to articulate their thinking in a logical manner with a compelling voice and persuasive argumentation. Reliance on the formulaic writing strategies traditionally used in classrooms restricts the critical thinking component that is necessary for effective communication. Do we let students write about topics they are passionate about? Are we giving them opportunities to write frequently in all subject areas? How often do we ask students deep questions and then give them sufficient “wait time” to develop and/or revise their oral responses? How often do we ask them to articulate the thinking behind their answers?

Accessing & Analyzing Information

Wagner says we have moved from a “knowledge economy” to an “innovation era”. When information is readily available 24 hours a day, the knowledge you possess is less valuable than what you are able to do with that knowledge. The true skill is being able to quickly access information and effectively analyze it for accuracy and relevance to the task. How often are we incorporating web-based texts in our instruction? Are we teaching students how to determine the reliability of the information they encounter online? Is research still only something we do during library time, or is it a part of regular instruction in all content areas?

Curiosity & Imagination

Innovation comes from curiosity and imagination. People who can ask the right questions and locate or iterate the answers to their questions are the people who are able to come up with unique products and services for a fast-paced world. How often do we encourage and allow students time to follow their curiosity and employ their imagination? Do we make time for Genius Hour during the school day? Have you thought about creating a Makerspace on campus for students?

By approaching our instructional practices with an awareness of these future ready survival skills we can look for opportunities to complement our traditional activities with new ideas for a new time.

Source

### An Appeal to Instructional Leaders Everywhere

Thursday, February 25th, 2016

AUTHOR: Judy Butler, Educational Specialist: Dyslexia & Related Disorders

What Research has to Say About Reading Instruction, Fourth Edition, edited by S. Jay Samuels and Alan E. Farstrup, copyright 2011 provides insight into how we could more effectively build reading curricula. To be sure, developing and teaching curricula that integrate the most complex brain processes a child will ever have to engage in is not for sissy educators (if there are such beings)…and neither is reading through these research studies; however, embracing even one of these research methods is sure to raise the effectiveness of our reading instruction.

There is one chapter in particular that points out one of the most commonly neglected components of reading curriculums and yet if included, could reap the most dramatic impact upon overall reading proficiency. What chapter is it? Chapter 4: Reading Fluency What It Is and What It Is Not, written by Timothy N. Rasinski and S. Jay Samuels.

Unfortunately, reading fluency instruction has become the neglected component of reading curricula. The authors report, “The oral reading studies included as part of the U.S. National Assessment of Educational Progress (NAEP) found that nearly half of all fourth grade students had not achieved levels of fluency for their grade levels and that these students also demonstrated lower levels of overall reading achievement (Daane et al., 2005 Pinnell et al., 1995).”

What is happening in our primary grades that produces such poor fluency levels in 4th grade? Often we have not devoted the needed time and intensity of instruction to allow students to master or become automatic at the sound/symbol level or the word level of reading. We haven’t laid the foundational ground to build automaticity or effortless word reading. We have been content to develop accurate, but slow readers.

We also approached the issue of poor fluency by believing that increasing reading rate with passages would cause good comprehension. This route has resulted in the development of fluency instruction programs that focus primarily on increasing reading speed, with little attention given to prosody (phrasing, intonation, and expression) or comprehension.

Accuracy plus rate does not equal fluency. Low levels of fluency typically mean lower levels of overall reading achievement. We are neglecting to prepare our students for the ever-increasing demands of text complexity and text volume as they advance from grade to grade to post-secondary education.

Phonics↔Automaticity—Prosody↔Comprehension

(Word Recognition)  (Fluency)

Automaticity is not just reading words accurately, but also reading them effortlessly so that cognitive resources are free to process meaning. Prosody, the melodic features of oral language (phrasing, intonation, expression) is that part of fluency which connects fluency to comprehension.

In my experience training reading teachers, most teachers have not received previous professional development in how to listen to a student’s oral reading and rate the quality of their prosody using such a tool as the NAEP Prosody Rating Scale. Many of them have never been taught that fluency work should begin at a student’s instructional or independent reading level, meaning that the student should be able to read at least 91% or more of the words accurately. Additionally, very few of them have been exposed to the Hasbrouck and Tindal Fluency Norms and have not been informed of how to interpret which students truly need a reading fluency intervention.

In Chapter 4, Rasinski and Samuels cite several research studies that suggest that reading fluency is important beyond the primary grades and needs to be taught in upper elementary, middle school, and high school. Rasinski and Samuels suggest “instructional methods that aim to improve students’ word recognition automaticity and, at the same time their prosody–in both oral and silent reading.” They suggest an acronym, MAPPS, as a guide for working on fluency with students. Below is a summary of the acronym guide.

Modeling Fluent Reading for Students: Direct students’ attention to the way you read. Provide negative examples as well (not often), but discuss what interfered with listening and comprehending.

Practice Reading Wide and Deep: wide reading offers experience with large volumes and genres of text; deep takes place when a student rereads text several times over to master deeper levels of content. Additionally, instructional routines using repeated reading built around Reader’s Theater, poetry, song, or some combination of performances result in increased overall reading proficiency and remarkable gains in rate. Rate is an outcome of good fluency instruction; it is not the aim of such instruction.

Phrasing of Words in Meaningful Groups: groups of words are phrased or chunked and read with prosody to reflect the phrasing. Students are given visual cues to reflect how words are parsed (scooping beneath words to reflect phrasing is a strategy used within the Wilson Reading System). Students can practice reading the marked text repeatedly until they can honor the phrase boundaries. Additional repeated reading can be added where the student has an opportunity to practice fluency, perhaps scooping and penciling their own phrase boundaries, or practicing with phrase boundaries deleted. A second approach mentioned is having students practice meaningful short phrases or sentences containing prepositions and high frequency words.

Synergy to Make the Whole Greater than the Sum: As important as each of these elements are, a teacher’s ability to combine them will create synergistic results!

I have witnessed, as a teacher and as a trainer of teachers, that including this component of fluency instruction, using protocols such as MAPPS, can remarkably improve students’ overall reading proficiency. The research reviewed in Rasinski’s and Samuel’s Chapter 4 yields strong support for examining our convictions and perhaps modifying our ELAR Curriculums to make fluency instruction the “hot topic” it should be.

For teacher professional development or resources, contact Judy Butler, ESC Education Specialist, Dyslexia, judy.butler@esc13.txed.net

References:

Daane, M. C. et al. (October 2005). The Nation’s Report Card: Fourth-Grade Students Reading Aloud: NAEP 2002 Special Study of Oral Reading. U.S. Department of Education, National Center for Education Statistics, Washington, DC. Retrieved 2/17/2016. http://nces.ed.gov/nationsreportcard/pdf/studies/2006469.pdf

Hasbrouck, J. & Tindal, G. A. (2006). 2006 Hasbrouck & Tindal Oral Reading Fluency Data. Oral reading fluency norms: A valuable assessment tool for reading teachers. The Reading Teacher. 59(7), 636-644. https://drive.google.com/open?id=0BzzNHPHS_N38eDdxd3I4bHFZUG8

Pinnell, G. S., Pikulski, J. J., Wixson, K.K., Campbell, J. R., Gough, P. B., and Beatty, A. S. (1995). Listening to children read aloud. U.S. Department of Education, National Center for Education Statistics, Washington, DC.

Samuels, S. J. and Farstrup, A. E. (2011). Reading Fluency What It Is and What It Is Not. What Research has to Say about Reading Instruction, 4th Edition. Newark, Delaware: International Reading Association.

U.S. Department of Education, Institute of Education Sciences, National Center for Education Statistics, National Assessment of Educational Progress (NAEP), 2002 Oral Reading Study. Updated 26 October, 2005. Retrieved 2/17/16. https://nces.ed.gov/nationsreportcard/studies/ors/scale.aspx

### Texas Teacher Evaluation and Support System (T-TESS)

Thursday, February 25th, 2016

AUTHOR: Lauralee Pankonien, Sr Coordinator: Certification Administration

Although change seems to be a constant in public education, it is rare that a new initiative reaches most Texas classrooms in the same school year. We are on the cusp of that unusual occurrence as the new Texas Teacher Evaluation and Support System (T-TESS) will be rolled out for initial implementation during the 2016-2017 school year. Thousands of administrators and teachers across the state will receive training in this new system over the next months. The great majority of Texas teachers appraised during the 2016-2017 school year, regardless of content area, grade level, specialization, experience level, rural/suburban/urban assignment, or student population served will be evaluated based on the T-TESS standards-driven rubric.

The introduction of this system will create unprecedented opportunities for statewide school improvement. T-TESS is designed to acknowledge the responsibility of every educator to consistently hold themselves to a high standard for individual development and performance and to support each teacher in those efforts. On campuses where the evaluation process truly leads to improved instruction and student performance, continuous improvement is an accepted norm and teams establish structures to support a community of learners. The comprehensive T-TESS rubric includes specific dimensions, descriptors and performance levels. An in-depth understanding of how their performance will be measured using this rubric is essential for teachers to thoroughly engage in T-TESS. The T-TESS Rubric includes four domains.

Four Domains of the T-TESS Rubric

 Planning Standards and Alignment Data and Assessments Knowledge of Students Activities Instruction Achieving Expectations Content Knowledge and Expertise Communication Differentiation Monitor and Adjust Learning Environment Classroom Environment, Routines and Procedures Managing Student Behavior Classroom Culture Professional Practices and Responsibilities Professional Demeanor and Ethics Goal Setting Professional Development School Community Involvement

T-TESS implementation involves multiple points of communication between the appraiser and the teacher: Collaborative Goal Setting for the teacher to establish measurable individual professional growth targets; Pre-Conference meeting prior to a formal classroom lesson observation; Post-Observation feedback conference, and End-of-Year summary of annual progress. There are standard protocols for T-TESS Post-Observation Conferences. Every teacher receives feedback on an area of demonstrated strength, or Reinforcement, and an area to target for improvement, or Refinement. The system is designed to formalize what highly effective teachers do, and support all teachers in developing habits of self-assessment, reflection, and adjustment through the creation of collaborative, relational, supportive cultures in which educators receive timely, formative, and ongoing feedback through a series of communication points and conferences throughout the school year.

With T-TESS, clearly school leaders will be investing more time engaged in meaningful conversations with teachers focused on improving instruction. These important interactions provide each campus an opportunity to leverage the appraisal process in order to create a growth mindset that is deeply embedded in the school.

### In This Issue (18)

Monday, December 7th, 2015

### What If? Whiteboard Scenarios in Science Education

Monday, December 7th, 2015

AUTHOR: Shawna Wiebusch, Secondary Science Education Specialist

One of our tasks as science teachers is to teach students about inquiry, patterns, and causality. The TEKS, across many grade levels, call for students to analyze, evaluate, make inferences, predict trends, and to critique scientific explanations. They also expect students to communicate scientific findings and explore the strengths and weaknesses of models.1 These skills do not happen by accident. We must explicitly teach students to argue and to care about their arguments in academia.

What If? Scenarios, which are a twist on a classic thought experiment, are particularly well suited to helping our students apply their scientific understanding to new situations. According to Dr. Stephens and Dr. Clement, a thought experiment is “ the act of considering an untested, concrete system designed to help evaluate a scientific concept, model, or theory — and attempting to predict aspects of the system’s behavior.”2 In creating What If? Scenarios, we start with the world as it is, then we change something about that model and ask students to predict how it will affect the many interconnecting parts of the system. In this process, students justify their understanding of the world and give teachers insight into their mental models.

In a recent workshop over 8th grade science, I presented the following What If? Scenario:

You wake up one day to find that there are no longer 24 hours in a day. Instead there are 30 hours in a day.

• Describe the change in Earth’s motion that would have to happen to account for the longer day.
• Draw a picture that shows this change.
• Predict the effect of a longer day on seasons, tides, moon phases, and our calendar.

This simple prompt, projected on the wall, led to conversations beyond the expectations listed. Teachers discussed the potential effects on biodiversity and the gravitational pull of the Moon and Earth upon each other. They argued about whether a slower rotation would change the length of seasons or the intensity of temperature extremes, and about how those temperature changes would affect weather and climate. Each group thought of something slightly different than the others and all contributed to a complex, analytical discussion of how the Earth moves in relationship to the Sun and the Moon.

The power of the What If? Scenario is not just in asking the questions, but also in providing students with practice in argumentation and scientific communication. Each group of three students gets a large whiteboard and a different colored marker for each team member. The basic rule in creating their board is that all students must contribute to the conversation and to the board. As students complete their board, the teacher walks around the room and helps provide just-in-time support. After all boards are complete, teams leave one representative at their board to act as docent, who is charged with explaining the group’s response to the What If? Scenario and asking for input and advice. All other students circulate around the room, listening to mini-presentations and asking questions. The goal here is to get students to help each other improve their predictions based on the science learned so far. Sentence stems such as “Can you explain why you believe_______________?” and “I disagree with _______________ and would change it because____________________.” may help guide students with limited experience in scientific discourse. Once three or four other teams have visited each board, the authors of the board regroup and revise their boards based on all of the information they learned from the gallery walk.

What If? Whiteboard Scenarios also meet the needs of many learners. Students are listening, writing, speaking, and reading about science throughout the process. Differentiation is built in because GT students will likely push beyond the scope of the prompt. There are also supports in place to help struggling learners. Through the whiteboarding process and the gallery walk, students have many opportunities to test their ideas out on each other in small, low risk environments prior to speaking out in whole group or being formally assessed over the content.

The Framework for K-12 Science Education states, “The argumentation and analysis that relate evidence and theory are also essential features of science; scientists need to be able to examine, review, and evaluate their own knowledge and ideas and critique those of others.”3 What If? Scenarios require students to use all of the science they know to respond. They also require students to think critically because we are no longer just telling them what we, as teachers, know will happen. We are asking students to tell us what they think and we are asking them to back it up with scientific principles, laws, and theories. I encourage you to play “What If?”with your students. You may find yourself surprised by how far they can take it and how much they can learn from each other.

References

1 “Texas Education Agency – 19 TAC Chapter 112.” 2006. 11 Nov. 2015 <http://ritter.tea.state.tx.us/rules/tac/chapter112/>.