TfR Seminar: Session 10 Change, Constancy, and Measurement and Evolution and Equilibrium.

Slides:

Advertisements

Similar presentations

Evaluating Student Achievement

Advertisements

Key Stage 3 National Strategy Scientific enquiry Science.

Leading Australian Curriculum: Science Day 2. Australian Curriculum CONSIDERATIONS FROM DAY 1 In your journal reflect on the following question: What.

Teaching Inquiry The BSCS 5E Model. What is Inquiry? Inquiry is a general term for the processes by which scientific knowledge is developed. Scientific.

© 2012 Common Core, Inc. All rights reserved. commoncore.org NYS COMMON CORE MATHEMATICS CURRICULUM A Story of Units Module Analysis Grade 5—Module 3.

Planning for Inquiry The Learning Cycle. What do I want the students to know and understand? Take a few minutes to observe the system to be studied. What.

Writing Instructional Objectives

© 2012 Common Core, Inc. All rights reserved. commoncore.org NYS COMMON CORE MATHEMATICS CURRICULUM A Story of Units Module Focus Grade 2- Module 4.

Science Inquiry Minds-on Hands-on.

K–8 Session 3: Exploring the Domain Progressions in Grades K–8 Module 1: A Closer Look at the Common Core State Standards for Mathematics.

© 2012 Common Core, Inc. All rights reserved. commoncore.org NYS COMMON CORE MATHEMATICS CURRICULUM A Story of Units Module Focus Kindergarten- Module.

Interactive Science Notebooks: Putting the Next Generation Practices into Action

Developing an Effective Evaluation to Check for Understanding Susan E. Schultz, Ph.D. Evaluation Consultant PARK Teachers.

Moving to the Common Core Janet Rummel Assessment Specialist Indiana Department of Education.

CURRICULUM EVALUATION. Citation and Skill Focus  Charles, R. I., et al. (1999). Math, Teacher’s Edition, Vol 2. New York: Scott Foresman-Addison Wesley.

Pedagogical Approaches to Science Instruction ~Defining Inquiry~ Bay Area Science Oakland Unified School District POSIT ~ 2007.

CFN 204 · Diane Foley · Network Leader Math Professional Development October 17, 2013 Presented by: Simi Minhas Math Achievement Coach, CFN204.

Cycles and Patterns MSI 2015 Ginger Tutton Debra Curtis Riverfront Christian School.

Math and Science Integration F. Mumba University of Virginia MSP Workshop 2014.

Welcome to Third Grade’s Parent Night

1 / 27 California Educational Research Association 88 th Annual Conference Formative Assessment: Implications for Student Learning San Francisco, CA November.

Making Group Work Productive PowerPoints available at Click on “Resources”

Math and Science Institute Exploring Physical Science Today’s Agenda Review of homework and participant sharing of their ENGAGE components of 5E. Engage.

We learned about what powerful social studies instruction entails According to the NCSS social studies is most powerful when it is: Meaningful – Students.

 Participants will teach Mathematics II or are responsible for the delivery of Mathematics II instruction  Participants attended Days 1, 2, and 3 of.

TfR Seminar: Session 13 Evidence, Models, and Explanation.

Teaching for Results Session 2 Facilitated by: Shauna Watson.

A Collaboration between: Los Angeles Unified School District University of California, San Diego San Diego State University University of California, Irvine.

Write To Learn Stephanie Needham J Glenn Edwards Elementary/ Lee County Schools April 25, A Race to the Top Initiative.

PRINCIPAL SESSION 2012 EEA Day 1. Agenda Session TimesEvents 1:00 – 4:00 (1- 45 min. Session or as often as needed) Elementary STEM Power Point Presentation.

Module 1: A Closer Look at the Common Core State Standards for Mathematics High School Session 3: Exploring Standard Progressions across High School Courses.

After lunch - Mix it up! Arrange your tables so that everyone else seated at your table represents another district. 1.

Blended Learning Design: Revised Recommendation

© 2012 Common Core, Inc. All rights reserved. commoncore.org NYS COMMON CORE MATHEMATICS CURRICULUM A Story of Units Module Focus.

A special partnership between the Georgia Department of Education and the Educational Technology Training Centers in support of the 8 th Grade Physical.

CFN 204 · Diane Foley · Network Leader Math Professional Development September 27, 2013 Presented by: Simi Minhas Math Achievement Coach.

Introduction to Curriculum Topic Study – Bridging the Gap Between Standards and Practice.

Fourth session of the NEPBE II in cycle Dirección de Educación Secundaria February 25th, 2013 Assessment Instruments.

A training module at Curriculum Companion Curriculum Camp training CESA 5/Summer 2012.

LESSON PLANNING What? Why? And How?. Goals of this session Participants will be able to identify and explain: 1.What is a lesson plan and how to develop.

Standards Aligned System What is SAS? A collaborative product of research and good practice Six distinct elements Clear Standards Fair.

UTeach STEP 1- Class #2  Welcome!  Please sign in  Pick up your folder and name card  Find your schedule & sit with your partner  Sign out a computer.

Professional Learning Resources Download presentations and resources from today’s sessions!  Go to BISD homepage  Departments  Professional Learning.

FLIBS Dec Biology Category 1 Session 2: Learning Biology within the IB Philosophy.

Lesson Planning Session Planning effective, standards-based lessons within the practice teaching classroom.

Ken Skrzesz, Coordinator of Fine Arts All Rights Reserved, Kenneth Skrzesz, 2015.

“Teaching”…Chapter 11 Planning For Instruction

Please go to Session #2. Please download Inquiry #1 Article and read it. If you finish that – check out the.

Educational Methods The bag of tricks Direct Instruction/Lecture ä Advantages ä Teacher controlled ä Many objectives can be mastered in a short amount.

National Science Education Standards. Outline what students need to know, understand, and be able to do to be scientifically literate at different grade.

Teaching for Results Session 4 Facilitated by: Shauna Watson.

TfR Seminar: Session 4 Mathematics in Science. Do Now! Do Now! (3 min) Take out all session 4 Handouts, please! Select Handouts 3.17 and 3.18: Strategy.

Department of Education Professional Learning Institute GOOD TEACHING Differentiated Classroom Practice Learning for All Module 1.

Good Morning Please come in and pick a table. At least 2 people need to sit at each table. Take a piece of purple paper out of the basket. Trace your hand.

TfR Seminar: Session 9 Evaluating Instructional Effectiveness.

District Mathematics Leadership Meeting – May 9, 2016 Wireless: PSESD Guest Success for Each Child and Eliminate the Opportunity Gap.

Collaborative Grouping 6-12 Math Teachers. Workshop Outcomes Participants will gain effective strategies for forming and facilitating a classroom culture.

1 Core Competencies for Primary School Teachers in Crisis Contexts.

4:00 – 4:05pm Welcome and Introductions 4:05 – 4:20pm Ice Breaker 4:20-4:30 pm Norms 4:30 – 5:00pm Journaling 5:00 – 5:30 pm Enquiry activity stations.

Module II Creating Capacity for Learning and Equity in Schools: The Mode of Instructional Leadership Dr. Mary A. Hooper Creating Capacity for Learning.

 Thematic units are interdisciplinary units that integrate reading and writing with social studies, science and other curricular areas.  Textbooks.

Curriculum that Brings the Common Core to Life Session 1 Elementary

Conceptual Change Theory

Improving students’ MEMORIES

Curriculum that Brings the Common Core to Life Session 1 Secondary

Chapter 3: Curriculum © VAN SCHAIK PUBLISHERS Chapter 3: Curriculum.

Meeting the Reading Standards in Secondary Classrooms

The Reading to Writing Connection Workshop #3

K–8 Session 1: Exploring the Critical Areas

Modifying science tasks

Presentation transcript:

TfR Seminar: Session 10 Change, Constancy, and Measurement and Evolution and Equilibrium

Do Now! Please take out all session 10 Handouts Complete Handouts 10.1 and 10.2a (2 min) With a neighbor discuss similarities and differences between the two unifying concepts. Use Handouts 10.1 and 10.2a for reference. (1 min)

Meet Paige 2 Truth & 1 Lie Paige Clausius-Parks, EdM 1. I graduated from PC with a BS in Biology. 2. This is my first time teaching a seminar. 3. I was almost arrested while doing a science experiment with my students.

Session Objectives ANALYZE the unifying concepts of change, constancy and measurement and evolution and equilibrium. BUILD a continuum showing how these concepts develop in the standards. IDENTIFY common misconceptions about change, constancy, and measurement and evolution and equilibrium, hypothesize places within the curriculum where these misconceptions may have developed, and develop strategies for correcting misconceptions. EXAMINE and select effective strategies for teaching students to conduct investigations.

Session Agenda TimeActivity 5:00- 5:15 15 minutes OpeningDefining the Unifying Concepts 5:15- 6:40 85 minutes Section 1 Analyzing the Development of Change, Constancy and Measurement and Evolution and Equilibrium 6:40-6:45 5 minutes BREAK Stretch & Food! 6:45-7:45 60 minutes Section 2 Implementing Effective Strategies That Support Students in Conducting Investigations with Practice Activity! 7:45 – 7:55 10 minutes ClosingReflection

Do Now! The Remix (2 mins) Please turn to Handout 10.2 Part B With a partner discuss why several science concepts listed in the first column are classified as either an example of change, constancy, and measurement (CCM) or evolution and equilibrium (EE).

Instructional Strategy: Advance Organizers How might you use an advance organizer like Handout 10.2 Part B with your students?

Transition These two unifying concepts are similar in that they both deal with change and constancy. They differ in that CCM focuses on measuring and identifying changes and absolutes in systems and materials. EE focuses on tracing structural and functional changes from past to present and describing the forces causing system balance. Change and constancy are not taught as separate subjects, but you can find the opportunities to connect specific topics to these larger unifying concepts.

Session Agenda TimeActivity 5:00- 5:15 15 minutes OpeningDefining the Unifying Concepts 5:15- 6:40 85 minutes Section 1 Analyzing the Development of Change, Constancy and Measurement and Evolution and Equilibrium 6:40-6:45 5 minutes BREAK Stretch & Food! 6:45-7:45 60 minutes Section 2 Implementing Effective Strategies That Support Students in Conducting Investigations with Practice Activity! 7:45 – 7:55 10 minutes ClosingReflection

Building Two Continua (50 mins) It is your responsibility to understand deeply the content you teach in order to make learning meaningful to all students.

Multidiscipline Groups Assemble in the following mixed content groups (CCM )Chris, Anne Marie, Michael, Jessica (EE) Alison, Blake, Travis, Laura (CCM) Caitlin, Adriana, Will, Ashley Handout 10.3 for directions

Step 1: Multidiscipline Groups (5 mins) Review and/or modify planning, if needed, for building the continuum for the assigned unifying concept. Think about:

Step 2: Course-alike Group (15 mins) Identify standards and misconceptions of both CCM and EE. When in your multidiscipline groups you will only use the standards for the assigned concept. Write both standards and misconceptions on sentence strips or index cards to bring back to your multidiscipline group.

Step 3: Multidiscipline Groups (20 mins) Do three things: 1.Build the continuum by arranging the strips/cards in order of development. 2.Identify when a topic within the continuum is first introduced, developed, and mastered. Illustrate this by writing on the sentence strip/index card “I” for introduced, “D” for developed, or “M” for mastered. Also, write a number for all strips/cards that represent the same topic. 3.Identify when a potential misconception may arise within the continuum. Write “Mis” on this strip.

Step 4: Multidiscipline Groups (10 mins) Examine and discuss with the group other continua of the same unifying concept and then individually write on Handout 10.7a or10.7b a summary of the development of the unifying concept across grade levels for each of the three main disciplines: life science, physical science, and earth science.

Group Share-Out Each group will have 5 mins to share their continuum with the class. Be sure to take notes and ask questions! Jot down any notes on Handout 10.6b or Handout 10.6c and summaries on Handout 10.7a or Handout 10.7b.

Reflection: Multidiscipline Groups (3 mins) Complete Handout 10.8 and discuss: 3 things you learned from the activity 2 ideas/concepts you can teach someone else 1 idea you can commit to implementing in your classroom

Transition Mapping out the unifying concepts helps develop a more detailed understanding of how students develop science from year to year and from discipline to discipline. One way to learn about the concepts is through investigations Building on work begun in Session 7 exploring effective strategies that support student process skills by developing strategies to teach students how to conduct investigations.

BREAK 6:40-6:45

Session Agenda TimeActivity 5:00- 5:15 15 minutes OpeningDefining the Unifying Concepts 5:15- 6:40 85 minutes Section 1 Analyzing the Development of Change, Constancy and Measurement and Evolution and Equilibrium 6:40-6:45 5 minutes BREAK Stretch & Food! 6:45-7:45 60 minutes Section 2 Implementing Effective Strategies That Support Students in Conducting Investigations with Practice Activity! 7:45 – 7:55 10 minutes ClosingReflection

Levels of Inquiry 1- Confirmation of a given finding 2- Structured inquiry 3- Guided inquiry 4- Open inquiry Full attention to safety procedures Good use of time and focus of attention on the experiment Accurate use of tolls, procedures and techniques Accurate measures and calculations Appropriate use of variables, controls, and repeated trials Revision of methods and explanations as needed

Check My Flow… 1 st - Review standards and textbooks and list and share instructional strategies for teaching students the “how-to’s” of successful lab investigations. 2 nd - Experience an instructional sequence that teaches students the process of conducting investigations. 3 rd - Practice Activity for Giving Clear Directions

Goal Become critical consumers of the curriculum. Begin to understand what you can use and need to supplement Handout 10.9 (7 mins) Work with a partner of same grade level or discipline to complete the blank organizer.

Check My Flow… 1 st - Review standards and textbooks and list and share instructional strategies for teaching students the “how-to’s” of successful lab investigations. 2 nd - Experience an instructional sequence that teaches students the process of conducting investigations. 3 rd - Practice Activity for Giving Clear Directions

Measure 80ml of H 2 O Handout Word Bank ml Graduated Cylinder H20H20 Meniscus

Procedure 1)Put on goggles. 2)Hold the graduated cylinder flat and steady on the table. 3)Pick up the beaker with water. 4)Bring eye level down/up to where 80ml will measure on the graduated cylinder. 5)Pour water from beaker into the graduated cylinder and stop when the lowest point of the meniscus is level with 80ml. 3 mins each

Guided Practice Measure 50 ml H 2 0 In the classroom this would include independent practice: Ask all students to complete the same two tasks that were modeled and done during guided practice. As teacher, you would walk around to observe during the independent practice to determine whether anything needs reteaching before assessment.

Assessment PointsSteps Put on goggles. Hold the graduated cylinder flat and steady on the table. Pick up the beaker with water. Bring your eye level down/up to where 5.5 ml will measure on the graduated cylinder. Pour water from beaker into the graduated cylinder and stop when the lowest point of the meniscus is level with the 5.5ml. Measure 5.5 ml H 2 0

Check My Flow… 1 st - Review standards and textbooks and list and share instructional strategies for teaching students the “how-to’s” of successful lab investigations. 2 nd - Experience an instructional sequence that teaches students the process of conducting investigations. 3 rd - Practice Activity for Giving Clear Directions

Procedure 1)Put on goggles. 2)Hold the graduated cylinder flat and steady on the table. 3)Pick up the beaker with water. 4)Bring eye level down/up to where 80ml will measure on the graduated cylinder. 5)Pour water from beaker into the graduated cylinder and stop when the lowest point of the meniscus is level with 80ml.

Planning for a Specific Lab Skill (5 mins) Work with a partner who teachers the same grade level or discipline and determine a specific lab skill you need to teach explicitly to your students. Use Handout Chose instructional strategies carefully to maximize your impact on student achievement. See Handout for strategies.

Transition Please complete the planning sheet on Handout 10.14, implement the strategy you chose, and fill out the reflection sheet on Handout for homework. Although conducting investigations may be a challenge for students who have only experienced teacher-directed instruction, the opportunity to conduct their own experiments will provide them with skills that will help them tremendously as science students and critical thinkers across the curriculum.

Session Agenda TimeActivity 5:00- 5:15 15 minutes OpeningDefining the Unifying Concepts 5:15- 6:40 85 minutes Section 1 Analyzing the Development of Change, Constancy and Measurement and Evolution and Equilibrium 6:40-6:45 5 minutes BREAK Stretch & Food! 6:45-7:45 60 minutes Section 2 Implementing Effective Strategies That Support Students in Conducting Investigations with Practice Activity! 7:45 – 7:55 10 minutes ClosingReflection

Instructional Strategies Reviewed Advance Organizers Word Bank 2 Truths/ 1 Lie Handout 1.8- Instructional Strategies Log

Portfolio Connections Component 2 ---Exploring and Developing Content Area Knowledge and Skills – What are your strengths and areas of growth in terms of your content knowledge, as measured by the content domain and standards? How has this affected your approach to your instruction and assessment of student learning? Component 5--- Creating and Implementing an Instructional Plan

Session Objectives ANALYZE the unifying concepts of change, constancy and measurement and evolution and equilibrium. BUILD a continuum showing how these concepts develop in the standards. IDENTIFY common misconceptions about change, constancy, and measurement and evolution and equilibrium, hypothesize places within the curriculum where these misconceptions may have developed, and develop strategies for correcting misconceptions. EXAMINE and select effective strategies for teaching students to conduct investigations.

Homework 1) Determine the specific lab skills you need to teach explicitly to your students. Use Handout ) Read strategies on Handout ) Complete planning sheet on Handout 10.14, implement the strategy you chose, and fill out the reflection sheet on Handout