David H. Jonassen Wallace H. Hannum Martin Tessmer
Task Analysis is not only the most important component of Instructional Design but also the most often misconstrued and poorly executed. Starting with this premise these authors have developed a complete reference and instructional text on Task Analysis. The Handbook of Task Analysis Procedures fulfills three distinct purposes. As an overview of the field it presents a comprehensive collection of functions, techniques and tools that can be used in a variety of settings. Thirty-five different procedures are cataloged and described in individual chapters. Providing flowcharts and...
Task Analysis is not only the most important component of Instructional Design but also the most often misconstrued and poorly executed. Starting w...
This book introduces the concept of a hypothetical type of knowledge construction -- referred to as structural knowledge -- that goes beyond traditional forms of information recall to provide the bases for knowledge application. Assuming that the validity of the concept is accepted, the volume functions as a handbook for supporting the assessment and use of structural knowledge in learning and instructional settings. It's descriptions are direct and short, and its structure is consistent. Almost all of the chapters describe a technique for representing and assessing structural knowledge...
This book introduces the concept of a hypothetical type of knowledge construction -- referred to as structural knowledge -- that goes beyond tradition...
This book is about the implications of constructivism for instructional design practices, and more importantly, it is about a dialogue between instructional developers and learning theorists. Working with colleagues in each discipline, the editors were amazed to find a general lack of familiarity with each others' work. From an instructional design perspective, it seems that the practice of instructional design must be based on some conception of how people learn and what it means to learn. From a learning theory perspective, it seems obvious that the value of learning theory rests in the...
This book is about the implications of constructivism for instructional design practices, and more importantly, it is about a dialogue between instruc...
This book introduces the concept of a hypothetical type of knowledge construction -- referred to as structural knowledge -- that goes beyond traditional forms of information recall to provide the bases for knowledge application. Assuming that the validity of the concept is accepted, the volume functions as a handbook for supporting the assessment and use of structural knowledge in learning and instructional settings. It's descriptions are direct and short, and its structure is consistent. Almost all of the chapters describe a technique for representing and assessing structural knowledge...
This book introduces the concept of a hypothetical type of knowledge construction -- referred to as structural knowledge -- that goes beyond tradition...
Written for teachers, trainers, and instructional designers -- anyone who is responsible for designing or preparing instruction -- this book begins with one basic premise: individual differences mediate learning at all levels and in all situations. That is, some learners find it easier or more difficult to learn some skills or to learn from certain forms of instruction because they vary in terms of aptitude, cognitive styles, personality, or learning styles. This volume describes most of the major differences in a readable and accessible way and demonstrates how to design various forms of...
Written for teachers, trainers, and instructional designers -- anyone who is responsible for designing or preparing instruction -- this book begins wi...
Written for teachers, trainers, and instructional designers -- anyone who is responsible for designing or preparing instruction -- this book begins with one basic premise: individual differences mediate learning at all levels and in all situations. That is, some learners find it easier or more difficult to learn some skills or to learn from certain forms of instruction because they vary in terms of aptitude, cognitive styles, personality, or learning styles. This volume describes most of the major differences in a readable and accessible way and demonstrates how to design various forms of...
Written for teachers, trainers, and instructional designers -- anyone who is responsible for designing or preparing instruction -- this book begins wi...
Martin Tessmer Wallace H. Hannum David H. Jonassen
Task Analysis Methods for Instructional Design is a handbook of task analysis and knowledge elicitation methods that can be used for designing direct instruction, performance support, and learner-centered learning environments.
To design any kind of instruction, it is necessary to articulate a model of how learners should think and perform. This book provides descriptions and examples of five different kinds of task analysis methods: *job/behavioral analysis; *learning analysis; *cognitive task analysis; *activity-based analysis methods; and *subject matter...
Task Analysis Methods for Instructional Design is a handbook of task analysis and knowledge elicitation methods that can be used for designing ...
Problem solving is implicit in the very nature of all science, and virtually all scientists are hired, retained, and rewarded for solving problems. Although the need for skilled problem solvers has never been greater, there is a growing disconnect between the need for problem solvers and the educational capacity to prepare them. Learning to Solve Complex Scientific Problems is an immensely useful read offering the insights of cognitive scientists, engineers and science educators who explain methods for helping students solve the complexities of everyday, scientific problems.
Important...
Problem solving is implicit in the very nature of all science, and virtually all scientists are hired, retained, and rewarded for solving problems. Al...
Problem solving is implicit in the very nature of all science, and virtually all scientists are hired, retained, and rewarded for solving problems. Although the need for skilled problem solvers has never been greater, there is a growing disconnect between the need for problem solvers and the educational capacity to prepare them. Learning to Solve Complex Scientific Problems is an immensely useful read offering the insights of cognitive scientists, engineers and science educators who explain methods for helping students solve the complexities of everyday, scientific problems.
Important...
Problem solving is implicit in the very nature of all science, and virtually all scientists are hired, retained, and rewarded for solving problems. Al...
R. Scott Grabinger Brent W. Wilson David H. Jonassen
This volume presents a process for developing expert systems. As the field of instructional technology matures it is becoming clear that technological process, not technological devices, is the single most important factor in designing effective instruction. Computers as devices are helpful, but their primary advantage may be the discipline placed on thinking and design processes by using them. The process used when examining a problem determines the quality of information entered into a program and the ultimate effectiveness of the solution. The process in this volume is intended for...
This volume presents a process for developing expert systems. As the field of instructional technology matures it is becoming clear that technologi...
