IT 5110

IT 5110 Technology Applications: Education and Training Week 2

Agenda • Instructional Design • Review of the NTeQ Philosophy • NTeQ Lesson Plan • MS Word for Teaching • Concept Mapping/Drawing

Instructional Design • Design - to plan • Instructional Design • Systematic planning of instruction • Both an Art and a Science • Art: Creativity, imagination, etc. • Consider an analogy of architects with same materials, site, and purpose producing different results • Some designers may be innovative, others more traditional • Novice versus expert designers

Instructional Design • Both an Art and a Science • Art: Instructional Philosophy • Behaviorism • Focuses on changes in what learner does (observable behaviors); stimulus-response-reinforcement • Cognitivism • Focuses on what learner knows (non-observable changes in memory structures) • Constructivism • Knowledge is constructed by an active learner; Sources of meaning are experience and context; no shared reality

Instructional Design • Both an Art and a Science • Science • Based on proven practices and research • Performing learner and instructional analyses • Writing objectives, sequencing of content, etc. • A Systematic Procedure (methodical, deliberate, purposeful, often step-by-step) • Especially important when technology is used for instruction, because pre-developed technologically-developed instruction is not as flexible as a good teacher

Instructional Design • Robert Mager (1984) • Poses three questions an instructional designer should answer • Where are we going? (objectives) • How will we get there? (strategy and medium) • How will we know when we have arrived? (evaluation and revision)

Instructional Design • Andrews and Goodson (1991) described 40 such models for systematic design of instruction • For Novice and Expert designers • Some contextual, some with a focus on technology • Some for K-12, some for training, some for products • Some are macro-level (curriculum/courses), some are micro-level (lessons)

Instructional Design • Most ID models share the same basic processes/steps • The ADDIE Model is perhaps the most generic (more macro-level; ISD)

Instructional Design • ADDIE Steps • Analysis • Needs/causes, gap analysis, content/tasks analysis, etc. • Design • Objectives, assessment items, draft (or story board), learner analysis, environment analysis, etc. • Development • Determine instructional strategies/methods, create materials/media, lesson design, prototyping, etc.

Instructional Design • ADDIE Steps • Implementation • Delivery, teach, provide feedback, use technology, staff development, logistics, etc. • Evaluation • Formative, summative, of teachers, students, and materials; Revision until mastery • Kirkpatrick’s (1994) Four Levels of Evaluation • Reaction • Achievement • Transfer to job • Impact on organization

Instructional Design • Consider Robert Gagne’s Nine Events of Instruction (good at lesson level) • Gaining attention • Informing learners of the objective • Stimulating recall of prior learning • Presenting the stimulus • Providing learning guidance • Eliciting performance • Providing feedback • Assessing performance • Enhancing retention and transfer

Instructional Design • Dick and Carey Model (good for lesson level) • One of the most common, well-known models • For novice to expert, K-12 to training

Instructional Design • Kemp, Morrison and Ross (1998) • The Four Components to Instructional Design Learners Methods Objectives Evaluation

Instructional Design • ASSURE Model (technology-specific) • Analyze Learner Characteristics • General, entry competencies, learning style • State Objectives • Select, Modify or Design Materials • Utilize Materials • Conduct the instruction • Require Learner Participation • Provide feedback and practice • Evaluate and Revise

The NTeQ Model Philosophy From Last Week

The NTeQ Philosophy • Some basic components of the NTeQ Model • Students use technology solve problems, promote critical thinking and meta-cognition • Technology as tool • Learn to learn (reflection, think/KWL sheets, etc.) • Students also learn the technology • Group-based, collaborative activities • Learn how to work in a team (listening, taking turns, taking responsibility) • Students help each other; teacher guidance (facilitation) still needed

The NTeQ Philosophy • Some basic components of the NTeQ Model • Student-centered and authentic • Meet the needs of diverse students, provide motivation, etc. • Active involvement of students (research, discovery, groups, etc.) • Students to identify problems, formulate hypothesis, collect data, analyze data, draw conclusions • May require guidance

The NTeQ Philosophy • Some basic components of the NTeQ Model • Interdisciplinary in nature • When possible integrate multiple subjects, e.g. math, science, social studies • Multiple resource-rich activities and resources • Newspaper, CD-ROM, Web, etc.

NTeQ Model Steps

NTeQ Model Steps • Specify Objectives • Match Objectives to Computer Functions • Specify a Problem • Specify Standards • Specify Prior Knowledge/Skills Needed • Plan the Data Manipulation • Plan the Results Presentation

NTeQ Model Steps • Plan the Activities While Using the Computer • Plan the Activities Prior to Using the Computer • Plan the Activities After Using the Computer • Plan the Supporting Activities • Plan the Assessment • Culminating Activity

NTeQ Model Steps Specify Objectives 1. Specify Objectives • There are several types of objectives • Behavioral versus cognitive • Bloom’s Taxonomy • Terminal and enabling • Designed to communicate what is to be learned to teacher, student, administration, parents, community, etc. • Found at curriculum level, course level and lesson plan level

NTeQ Model Steps Specify Objectives 1. Specify Objectives • Behavioral (Mager) Approach • ABCD’s of behavioral objectives • Audience will do • expected Behavior • under what Conditions • to what Degree • Example: Given a right triangle, the student will correctlycalculate the length of the hypotenuse

NTeQ Model Steps Specify Objectives 1. Specify Objectives • Incorrect behavioral objective • By tomorrow, know the continents • What is knowing the continents? • Is it naming them? • Is it ordering them from largest to smallest? • Is it labeling them on an outline map? • Is it naming the direction each lies from the United States?

NTeQ Model Steps Specify Objectives 1. Specify Objectives • Correct behavioral objective • Given an outline map of the seven continents named in the geography text, the student will write the name of each continent within the outline of the continental area • Others • Given 10 seeds, students will identify the grain crops they grow with at least 90% accuracy. • Given the necessary parts, student will correctly replace the rotor and pads for the brakes of an automobile within 15 minutes.

NTeQ Model Steps Specify Objectives 1. Specify Objectives • Cognitive Objectives • Not as easily stated in one sentence • Useful for higher level learning tasks that allow for more than one approach to mastery • Behaviors such as apply, interpret, solve or evaluate suggest more than one solution • Distinguish general (terminal) and specific (enabling) objectives

NTeQ Model Steps Specify Objectives 1. Specify Objectives • Terminal versus enabling objectives • Terminal: general instructional objective for unit • Enabling: one or more specific statements describing specific performances that indicate mastery of the terminal objective (sub-objectives) • Example • Terminal Objective • Perform psychiatric physical examination

NTeQ Model Steps Specify Objectives 1. Specify Objectives • Example, continued • Enabling Objectives • Perform gait evaluation, including recognizing common abnormal gait patterns. • Evaluate musculoskeletal system including joint palpation, range of motion, stability, and recognize signs of inflammation and infection. • Perform central and peripheral nervous system examination

NTeQ Model Steps Specify Objectives 1. Specify Objectives • Cognitive Domain: Levels • Knowledge - finding out; recall • Comprehension - understanding; interpret • Application - applying; making use of knowledge • Analysis - take apart the known; relationships • Synthesis - put together (in same or another way) • Evaluation - judging outcomes; quality

NTeQ Model Steps Matching Objectives to Computer Functions 2. Matching Objectives to Computer Functions • Ask yourself how you would achieve the objective if you were the student. What process or technology/feature would you perform? • Use a spreadsheet to determine • Calculations, relationships, tables, charts, ordered lists, etc. • Create a chart to show... • Visual needs, relationships, etc. • Use a database to find • Find patterns, queries, calculations, search, etc.

NTeQ Model Steps Matching Objectives to Computer Functions 2. Matching Objectives to Computer Functions • Some objectives are less easy to match with computer function, or to only one application • Example: Student evaluation of a story or data • Spreadsheet or database to aid in analysis • Chart ot evaluate the data • Word processor to generate report that explains evaluation

NTeQ Model Steps Specify the Problem 3. Specify the Problem • A brief statement • Make it meaningful to the students so they can relate to it • Authentic to students, real-world events, issues, etc. (motivation and retention) • Problem-based (critical thinking) and reflective • Sports, hobbies, friends, television, spring break budgets, college budget, where to live criteria, buying a car, news paper route, etc.

NTeQ Model Steps Specify Standards 4. Specify Standards • Look up educational standards that apply • National Standards • National Educational Technology Standards Projects http://cnets.iste.org/ • State Standards • Michigan Technology Standards http://cdp.mde.state.mi.us/Technology/default.html • Local standards? • Will go over in more detail in future class...

NTeQ Model Steps Specify the Problem 5. Prior Knowledge • Prior knowledge and/or skills necessary for students to successfully accomplish lesson • Examples • Students will have prior knowledge and skill in working on a computer • Students will have prior knowledge and skill in creating word processing documents • Students will have prior knowledge and skills in doing research

NTeQ Model Steps Plan the Data Manipulation 6. Plan the Data Manipulation • How will student manipulate data? • Will they need guidance/instruction or instructions? • A Think/KWL Sheet? (before, during, after)

NTeQ Model Steps Plan the Data Manipulation 6. Plan the Data Manipulation • Examples • Navigating web sites • Spell check, punctuation, format, etc. in Word Processor • Searching a database • Experiment with values in spreadsheet and observe changes to formulas and functions

NTeQ Model Steps Plan the Results Presentation 7. Plan the Results Presentation • Word, Excel, PowerPoint, web site, portfolio • Presentation, poster, reports • Move away from traditional assessment instruments • Individual or group-based? • Other • Hard-copy, demonstration,Q&A, newsletter (desktop publishing)

NTeQ Model Steps Multidimensional Activities 8-10. Multidimensional Activities Many of these may be group-based 8. Plan the Activities While Using the Computer • Formulas in Excel? Queries in a database? • Searches on the Web or CD? Sort data in Word? • Create a chart of graph? Read a chapter? 9. Plan the Activities Prior to Using the Computer • Especially important if computers are limited • Can data be collected and organized beforehand? • Create an outline • Search engine keywords

NTeQ Model Steps Multidimensional Activities 8-10. Multidimensional Activities Many of these may be group-based 10. Plan the Activities After Using the Computer • Explore and interpret results • A Think Sheet might be helpful • If predictions or hypotheses were made, how did they turn out and why?

NTeQ Model Steps Final Two 11. Planning the Supporting Activities • Look up web pages, practice, further reading • Posters, experiments, discussions • Reinforcement, retention • Any rotational activities needed?

NTeQ Model Steps Final Two 12. Assessment/Evaluation • Development of a Rubric • Contains: assessment criteria, rating scales, and levels of performance; see p. 171 of text for example • http://edtech.sandi.net/rubric/ • Will discuss more later…. • Evaluation form is a possibility

NTeQ Model Steps Final Two 13. Culminating Activity • Purpose: To solidify and confirm learning • Examples: Discussion of findings, implications, and/or applications; a class review/summary • KWL may be helpful

NTeQ Model Steps • Visit NTeQ Examples at • From Wayne State University • http://tbf.coe.wayne.edu/it8130/nteq.html • From University of Maryland • http://www.education.umd.edu/Depts/EDCI/edci385/Projects101/projects101.html • http://www.education.umd.edu/Depts/EDCI/edci385/Projects301/projects301.html

NTeQ Model Steps • Visit NTeQ Examples at • Saskatoon Public Schools http://schools.sbe.saskatoon.sk.ca/DE/1-4/1/animals.htm • Greg Doyle's lesson plans for the 8th grade http://www.ucs.mun.ca/~z06gkd/mywork.htm • Your exact format may vary some

An NTeQ Model Example

NTeQ Model Example • A sample lesson (partial) • Students: 6th Grade • Subject(s): Math lesson • Assignment: • “You have $50 to buy groceries from your family • You have to buy everything on a list from one store advertised in today’s paper

NTeQ Model Example • A sample lesson (partial, continued) • To help save money, you can buy store brands, and you can use three special coupons for each store: two for one, 15% off the regular price, and save 75 cents when you buy two • You may want to shop carefully, because you get to keep any money left over • Work in groups of three to determine most economical store among three. Group with lowest grocery bill will receive 15 bonus points

NTeQ Model Example • A sample lesson (partial, continued) • Create Know/Want/Learned (KWL) chart (Word, PowerPoint, or Excel) as a guide students thinking through problem • And so on… • Assign students to groups and computers

NTeQ Model Example • A sample lesson (partial, continued) • Resources: today’s newspaper, several grocery list recording sheets, special coupons, Think Sheet 1, a computer disk with the spreadsheet template (has grocery list, but students need to add formulas). • On Think Sheet, students will answer • What will be the easiest part of this assignment? • What will be the most difficult part? • How much money do you think you’re group will save?

NTeQ Model Example • A sample lesson (partial, continued) • Each group will create “Define and Assign” sheet to determine which tasks need to be completed and who will complete them, e.g. • Locate grocery store ads • Complete price list for each store • Enter data in spreadsheet • Experiment with coupon savings, etc. • As students work, teacher guides them by posing questions such as • What if you use your 15% coupon on the milk and instead of the eggs

IT 5110

IT 5110

Presentation Transcript

MSETM 5110 – LEADERSHIP STRATEGIES

MSETM 5110 – Ethics for Technology Managers

MSETM 5110 – New Product Development

District 5110 Grant Management Seminar

IN 5110

ECE 4110–5110 Digital System Design

ECE 4110/5110: Digital System Design

ECE 4110–5110 Digital System Design

ECE 4110–5110 Digital System Design

§5110 Enforcement Experience

5110

ECE 4110–5110 Digital System Design

ECE 4110–5110 Digital System Design

ECE 4110–5110 Digital System Design

ECE 4110–5110 Digital System Design

Saudi Electricity Company (5110)

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