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Learning Goals, Scales and Learning Activities
July 2014 Office of Academics and Transformation Learning Goals, Scales and Learning Activities Millard Lightburn, Ph.D. Science Supervisor Mary Tweedy and Keisha Kidd, CSS Department of Mathematics and Science Department of Mathematics and Science
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Learning Goals, Scales, and Learning Activities
July 2014 Learning Goals, Scales, and Learning Activities Florida Educators are tasked with guiding our students towards mastery of the New Florida Standards and Next Generation Sunshine State Standards. To accomplish this task, it involves establishing and communicating learning goals that will enable student learning growth. July 2014 Department of Mathematics and Science Department of Mathematics and Science
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Learning Goals and Progression Scales
Contemporary researchers state: Knowledgeable teachers know what concepts are central to a discipline. No curriculum can replace the knowledge and expertise of a teacher. Learning goals with scales are one of the instructional planning processes that enable teachers to focus on instruction that is most important. July 2014 Department of Mathematics and Science
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WHAT ARE LEARNING GOALS?
Learning Goals are statements that communicate to teachers and students what students will understand and be able to do at the conclusion of instruction. They encompass two broad categories of knowledge: Declarative and Procedural. July 2014 Department of Mathematics and Science
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Categories of Knowledge in Learning Goals
Declarative Knowledge is student recall of information about facts, generalization or principles e.g. Student will understand….. Procedural Knowledge involves skills, strategies or processes. e.g. Student will be able to…… Complex learning goals may involve both e.g. The student will understand “x” and be able to do “y”. July 2014 Department of Mathematics and Science
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Research on Learning Goal
Robert Marzano, John Hattie et al reveal that goal-setting and monitoring of progress on goals have the potential to increase student performance. In Marzano’s meta-analyses he found that a student who receives instruction with clear learning goals will likely score 16 to 41 more points on an assessment than a student who does not have a learning goal. July 2014 Department of Mathematics and Science
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Effectiveness of Learning Goals and Scales
For learning goals to have a positive impact on student performance, it must include a rubric or scale for learners to monitor their progress and celebrate their growth. For learning goals to be effective, they need to focus on the important knowledge and skills needed to master the standards. July 2014 Department of Mathematics and Science
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Learning Goals and Students
Learning goals must be: Comprehensible to the student and measurable either by scale or rubric both for the teacher (to monitor) and the student (to monitor his/her understanding and progress towards mastery). The students must be able to understand what they are expected to understand or able to do. July 2014 Department of Mathematics and Science
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Learning Goals and Students
Standards are written for professional educators. Learning goals may need to be “translated” into terms students understand. Goals should be Measurable because tracking progress (by teacher and student) is an essential aspect of quality instruction. Both teacher and student must be able to recognize when students move from one level of the scale to another. July 2014 Department of Mathematics and Science
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I think it’s called a scale but mom calls it a @#$@#$
SCALES I think it’s called a scale but mom calls it a July 2014 Department of Mathematics and Science
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WHAT ARE PROGRESSION SCALES?
Stages or progression points that move a student towards mastery of the goal and a set of formative learning activities that support the learning goal. Scales provide a clear progression of what a student should understand or be able to do. The progress points built into the scale should be appropriately sequenced in ascending levels of difficulty. July 2014 Department of Mathematics and Science
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Department of Mathematics and Science
IMPORTANCE OF SCALES Scales are formative in nature because they help guide students towards mastery. Marzano states that the use of clear learning goals is identified as a high-effect size instructional strategy. When used appropriately, scales in conjunction with formative assessments have the potential to greatly improve student performance on summative measures (e.g. FCAT, EOC etc) July 2014 Department of Mathematics and Science
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Department of Mathematics and Science
Learning Activities July 2014 Learning activities are purposeful exercises that engage the student with explicit content to promote mastery of the learning goal. Learning goal is where the student needs to be at the end of a unit and learning activities are the vehicles and paths the student uses to get there. Learning activities should be planned in a way that students are engaged at a level of cognitive demand consistent with the learning goal. July 2014 Department of Mathematics and Science Department of Mathematics and Science
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Developing Learning Goals
July 2014 Developing Learning Goals At MDCPS we decided to use the achievement level descriptors and the item specifications to guide the development of the learning goals with appropriate scale progression. We will develop learning goals for all annually assessed benchmarks from grades 3-5. A sample Grade 5 Science Learning Goal is shown on the next slide. July 2014 Department of Mathematics and Science Department of Mathematics and Science
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Sample Learning Goals for Grade 5 Science Assignments/Activities
SC.5.N.1.1 Define a problem, use appropriate reference materials to support scientific understanding, plan and carry out scientific investigations of various types such as: systematic observations; experiments requiring the identification of variables; collecting and organizing data; interpreting data in charts, tables, and graphics; analyze information; make predictions; and defend conclusions. (Also assesses SC.5.N.1.2, and SC.5.N.1.4.) (Level 3: Strategic Thinking & Complex Reasoning) Scale Learning Goals Assignments/Activities Score/ Step 5.0 I am able to independently…… research appropriate reference materials to support scientific understanding design and carry out scientific investigations of various types defend conclusions with evidence meet goals from steps 3 and 4 Design and conduct an investigation/experiment, analyzing its data, reporting results and defending its conclusion with evidence from the data and research. (use science website or other sources for activities) Step 4.0 I am able to …… design a problem use appropriate reference materials to support scientific understanding analyze information plan and carry out scientific investigations of various types Meet goals from step 3 Design and carry out an investigation to solve a testable question. Display findings with data, a conclusion with supporting evidence from the data and reference materials. Step 3.0 Target (Learning Goal) develop a problem statement make predictions/hypothesize plan and carry out scientific investigations identify variables and control group (if applicable) collect, organize and interpret data Develop a testable question, hypothesize and plan and carry out the experiment. Draw a conclusion using evidence from the investigation data. Step 2.0 I am able to when given a problem statement and experiment……… make a hypothesis carry out the experiment collect and record data draw a conclusion Make a hypothesis from a given testable question. Follow procedures to carry out the experiment then draw a conclusion. July 2014 Department of Mathematics and Science
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Department of Mathematics and Science
References The information contained in this PowerPoint was taken from the summary of the Florida Leaders online course “Learning Goals with Scale-an introduction to a high effect size instructional strategy that support standard based”. ( Classroom Instruction that works: Research based strategies for increasing student achievement (2001) by Robert Marzano, Debra Pickering, Debra and Jane Pollock. July 2014 Department of Mathematics and Science
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