There are at least three powerful insights for educational technology researchers and designers from recent neuroscience studies of the brain and from cognitive science research findings: First, our brains learn and process two very different types of knowledge; non-conscious, automated, procedural, or implicit knowledge, and conscious,…

Design, including instructional design, is one of most complex and ill-structured kinds of problem solving. Historically, instructional design has been conceptualized as a linear set of phases (e.g., analysis, design, development, implementation, evaluation) that a designer progresses through. Silber (2007) has provided an alternative perspective…

The author argues that Instructional Design (ID) is a problem-solving process, not a procedure, made up of a thinking process common to designers in many fields, and a set of well-accepted, underlying ID principles. This article presents a model of those principles. Further, it argues that teaching ID as a well-structured procedure is not helpful…

This fourth in a series of edited transcripts based on a conference at Utah State University compares Gagne's Conditions of Learning with Merrill's Component Display/Design Theory, and suggests a merging of the two. Topics discussed include content structures, learning hierarchies, learning theories, learner control, problem solving, cognitive…

Explores the utility of mental models as learning outcomes in using complex and situated learning environments. Describes two studies: one aimed at eliciting mental models in the heads of novice refrigeration technicians, and the other an ethnographic study eliciting knowledge and models within the community of experienced refrigeration…

Discusses computer-based training (CBT) methods that emphasize an interactive learning environment but do not require video. Topics addressed include cognitive processes; different levels of interaction, including simulation or problem solving; the use of icons and buttons; hypertext; differences in learning styles; and thought-provoking…

Presents a classification scheme applicable to systematic instructional design, which partitions the cognitive domain into the four levels of knowledge, understanding, mental processes, and strategies, each of which encompasses specific instructional objectives. Guidelines are offered to assist in the design and construction of these instructional…

Focuses on description of instructional-learning conditions for a LOGO environment hypothesized to be conducive to development of problem-solving skills for both given and new situations based on existing educational research. A LOGO activity for constructing squares and triangles is outlined to illustrate application of the instructional…

Discusses the appropriate use of Logo and microcomputers in elementary education and gives recommendations for its successful use. Highlights include problems with unsubstantiated claims for the benefits of Logo; the effects of teaching children to program; formal operational thinking; research on Logo; and problem solving and transfer to other…