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Connections› Diploma› Standards› Essential Skills› Mathematical Practices› Effective Instruction
Putting it All Together2
Diploma Requirements› Inquiry Science Credits› Lab Experiences› Essential Skills
Science Standards Common Core State Standards Research-Based Effective Instruction
› Motivation› Prior Knowledge› Intellectual Engagement› Use of Evidence› Sense-Making 3
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Oregon diplomaStandards -Based Credit Requirements 4- English/LA 3- Arts/CTE/Second Language 3- Math 1- Health 3- Science 1- PE 3- Social Sciences 6- Electives 24- Total
Essential Skills Proficiency Reading (2012) Writing (2013) Apply math (2014)
Personalized Learning Education Plan & Profile Extended Application Career-Related Learning Standards and Experiences
www.ode.state.or.us/go/diploma
Essential Skills are foundational skills that all students need for success in college, the workplace, and in their communities
The Essential Skills are:■ Read and comprehend a variety of text■ Write clearly and accurately■ Apply mathematics in a variety of settings■ Listen actively and speak clearly and coherently■ Think critically and analytically ■ Use technology to learn, live, and work■ Demonstrate civic and community engagement■ Demonstrate global literacy■ Demonstrate personal management and
teamwork skills
3 Science Credits Inquiry-based - opportunity to apply
scientific reasoning and critical thinking
Lab Experiences -may be field-based
Courses/credits aligned to content standards
Credit may be earned through applied academics
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Define what students are expected to know and be
able to do.
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Oregon Content Standards
Structure and Function Interaction and ChangeScientificInquiry
EngineeringDesign
Properties of Matter
Forms of Energy
Changes in Matter
Energy Transfer and Conservation
Forces and Motion
Organization of Living Systems
Matter and Energy Transformations in Living Systems
Interdependence
Evolution and Diversity
Properties of Earth Materials
Objects in the Universe
Matter and Energy Transformationsin Earth Systems
History of Earth
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Life
Physi
cal
Eart
h a
nd S
paceScience Standards Science Standards
FrameworkFramework
Abi
litie
s to
do
Sci
entif
ic I
nqui
ry
Nat
ure
, H
isto
ry,
and
Inte
ract
ion
of S
cien
ce a
nd
Tec
hnol
ogy
Abi
litie
s to
do
Eng
ine
erin
g D
esi
gn
Nat
ure
, H
isto
ry,
and
Inte
ract
ion
of T
echn
olog
y an
d
Sci
ence
Science Content KnowledgeScience Content Knowledge Science Process Skills*
* The Science Process Skills align with the Oregon Essential Skills
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“We live in a society exquisitely dependent on science and technology, in which hardly anyone knows anything about science and technology.” Carl Sagan
Gather Relevant Information
Explore/BrainstormDiscover/Create
Test
Evidence-based Explanations and
Solutions
Knowledge and Innovations
Design
Create or Refine Technological
Solutions
Engineering Design
Scientific Inquiry
Investigate
Communicate and Apply
Discover Scientific
Knowledge
Articulate Questions
Define Problems
Communicate and Apply
Scientific Inquiry/Engineering Design (critical thinking) Tools of Investigation (using technology) Data Management (apply mathematics)Communication (reading, writing, and speaking) Collaborative Workgroups (teamwork)
Science Processes Align with Oregon Essential Skills
Moving Science Education Forward› www.ode.state.or.us/search/page/?id=2978
Test Specification Content Pages› www.ode.state.or.us/search/page/?id=496
Scientific Inquiry and Engineering Design in the Classroom; Activities vs. Inquiry and Design Tasks; Key Terms› www.ode.state.or.us/search/page/?id=518
Scientific Inquiry and Engineering Design Work Sample Scoring Guides › www.ode.state.or.us/search/page/?=1414
Oregon Common Core State Standards
College and Career Ready K- 12 Standards for English Language Arts and Mathematics› www.ode.state.or.us/go/commoncore
ELA includes literacy standards for social science, technical subjects, and science› www.ode.state.or.us/search/page/?
id=3350
CCSS Mathematical Practices
Make sense of problems and persevere in solving them.
Reason abstractly and quantitatively. Construct viable arguments and critique
the reasoning of others. Model with mathematics. Use appropriate tools strategically. Attend to precision.
Review indicators of Essential Skills, Science Standards, and Math Practices Table group discussion about ways to reinforce Essential Skills development, science standards, and math practices in
21st CCLC s
Connections
The following elements of effective instruction are derived largely from the learning theory described in the National Research Council’s volumes How People Learn (2003) and How Students Learn: Science in the Classroom (2005).
Center on Instruction and Horizon Research, Inc.(2008)
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Motivation Elicit Prior Knowledge Intellectual Engagement Use of Evidence Sense-Making
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Students must have a desire to learn Instruction needs to “hook” students Extrinsic Motivators
› deadlines for research projects, classroom competitions, and tests and quizzes affecting students’ grades
Intrinsic Motivators› usually stem from intellectual curiosity
and a desire to learn.
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Students come to school with ideas and real-life experiences.
These ideas may either facilitate or impede their learning of important ideas.
Instruction is most effective when it elicits students’ initial ideas, provides them with opportunities to confront those ideas, helps them formulate new ideas based on evidence, and encourages them to reflect upon how their ideas have evolved.
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Engage students intellectually with important content focused on the learning goal› Can be through a hands-on experience› Can be through an interactive lecture
(Socratic discussion)
“If I were a student in this class, what would I be thinking about?”
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Science is a process by which knowledge is constructed, NOT as a collection of facts.
Students should use valid evidence to support and critique conclusions. Discrepancies or conflicting data need to be resolved.
Students are less likely to revert to their prior incorrect ideas if they are familiar with the evidence that confronts those ideas and supports the scientific consensus.
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Effective instruction requires opportunities for students to make sense of the ideas with which they have been engaged:Making connections between what they did in a lesson and what they were intended to learn.Connecting the new ideas to knowledge that students already have, placing the lesson’s learning goals in a larger framework and helping students organize their knowledge.
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Table Group Discussion:
How can you incorporate the Elements of Effective Instruction into your program?
Elements of Effective Instruction
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Webspiration Web-based concept map software http://mywebspiration.com/
Thinking Space Mobile mind mapping for Android Android Market
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Develop a concept map for 21st CCLC programs that includes connections to science, technology, and common core standards; essential skills; mathematical practices; and elements of effective instruction.
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