Cognition and Instruction 

About: Cognition and Instruction is an academic journal published by Taylor & Francis. The journal publishes majorly in the area(s): Teaching method & Reading (process). It has an ISSN identifier of 0737-0008. Over the lifetime, 584 publications have been published receiving 70519 citations.

Reciprocal Teaching of Comprehension-Fostering and Comprehension-Monitoring Activities

Abstract: Two instructional studies directed at the comprehension-fostering and comprehension-monitoring activities of seventh grade poor comprehenders are reported. The four study activities were summarizing (self-review), questioning, clarifying, and predicting. The training method was that of reciprocal teaching, where the tutor and students took turns leading a dialogue centered on pertinent features of the text. In Study 1, a comparison between the reciprocal teaching method and a second intervention modeled on typical classroom practice resulted in greater gains and maintenance over time for the reciprocal procedure. Reciprocal teaching, with an adult model guiding the student to interact with the text in more sophisticated ways, led to a significant improvement in the quality of the summaries and questions. It also led to sizable gains on criterion tests of comprehension, reliable maintenance over time, generalization to classroom comprehension tests, transfer to novel tasks that tapped the trained skills of...

Cognitive Load Theory and the Format of Instruction

Abstract: Cognitive load theory suggests that effective instructional material facilitates learning by directing cognitive resources toward activities that are relevant to learning rather than toward preliminaries to learning. One example of ineffective instruction occurs if learners unnecessarily are required to mentally integrate disparate sources of mutually referring information such as separate text and diagrams. Such split-source information may generate a heavy cognitive load, because material must be mentally integrated before learning can commence. This article reports findings from six experiments testing the consequences of split-source and integrated information using electrical engineering and biology instructional materials. Experiment 1 was designed to compare conventional instructions with integrated instructions over a period of several months in an industrial training setting. The materials chosen were unintelligible without mental integration. Results favored integrated instructions throughout th...

Toward an Epistemology of Physics

Abstract: (1993). Toward an Epistemology of Physics. Cognition and Instruction: Vol. 10, No. 2-3, pp. 105-225.

Inquiry, Modeling, and Metacognition: Making Science Accessible to All Students

Abstract: Our objective has been to develop an instructional theory and corresponding curricular materials that make scientific inquiry accessible to a wide range of students, including younger and lower achieving students. We hypothesized that this could be achieved by recognizing the importance of metacognition and creating an instructional approach that develops students' metacognitive knowledge and skills through a process of scaffolded inquiry, reflection, and generalization. Toward this end, we collaborated with teachers to create a computer enhanced, middle school science curriculum that engages students in learning about and reflecting on the processes of scientific inquiry as they construct increasingly complex models of force and motion phenomena. The resulting ThinkerTools Inquiry Curriculum centers around a metacognitive model of research, called the Inquiry Cycle, and a metacognitive process, called Reflective Assessment, in which students reflect on their own and each other's inquiry. In this article, we report on instructional trials of the curriculum by teachers in urban classrooms, including a controlled comparison to determine the impact of including or not including the Reflective Assessment Process. Overall, the curriculum proved successful and students' performance improved significantly on both physics and inquiry assessments. The controlled comparison revealed that students' learning was greatly facilitated by Reflective Assessment. Furthermore, adding this metacognitive process to the curriculum was particularly beneficial for low-achieving students: Performance on their research projects and inquiry tests was significantly closer to that of high-achieving students than was the case in the control classes. Thus, this approach has the valuable effect of reducing the educational disadvantage of low-achieving students while also being beneficial for high-achieving students. We argue that these findings have strong implications for what such metacognitively focused, inquiry-oriented curricula can accomplish, particularly in urban school settings in which there are many disadvantaged students. (http://www.tandfonline.com/doi/abs/10.1207/s1532690xci1601_2)

Why Some Material Is Difficult to Learn

Abstract: The experiments reported in this article flow from the following assumptions concerning our cognitive processes: (a) Schema acquisition and automation are major learning mechanisms when dealing with higher cognitive activities and are designed to circumvent our limited working memories and emphasize our highly effective long-term memories. (b) A limited working memory makes it difficult to assimilate multiple elements of information simultaneously. (c) Under conditions where multiple elements of information interact, they must be assimilated simultaneously. (d) As a consequence, a heavy cognitive load is imposed when dealing with material that has a high level of element interactivity. (e) High levels of element interactivity and their associated cognitive loads may be caused both by intrinsic nature of the material being learned and by the method of presentation. (f) If the intrinsic element interactivity and consequent cognitive load are low, the extraneous cognitive load is critical when dealing with i...