The authors investigated whether the amount of instructional guidance affects science learning and self-efficacy. Sixty 9- and 10-year-old children were randomly assigned to one of the following three instructional conditions: (a) guided instruction consisting of examples and student-generated explanations, (b) direct instruction consisting of a…

The impulse to investigate the natural world is deeply rooted in our earliest childhood experiences. This notion has long guided researchers to uncover the cognitive mechanisms underlying the development of scientific reasoning in children. Until recently, however, research in cognitive development and education followed largely independent…

Some ways in which a young child becomes involved in exploratory activities, seeking to become acquainted with his world, and how these experiences involve science concepts are presented. Piaget's philosophy of learning is discussed with emphasis on the child's need for interaction for an open learning environment. (EB)

Stresses the importance of learner involvement, and adult patience and understanding, for a child's success in learning and consequently in living. (EB)

This report suggests that research in education, as well as the design of instruction, can be importantly influenced by the paradigm that guides the work. The application of a paradigm to educational research is illustrated, and two paradigms (reception learning and discovery learning) are contrasted. Finally, it is suggested that all educational…

This paper provides a log and discussion of experiments conducted by a five-and-one-half-year-old child under the direction of the author. (SD)

Describes a remedial college course in which discovery-based teaching and physical models are employed to teach students how to think. Discusses program content, program structure, program goals, results of the course, and the impact on student success in future science and math courses. (DKM)

Suggestions are given relating to having plants and animals in the classroom to stimulate development of the understanding of the concept of being alive, a concept not really understood by children under age nine. The research reviewed promotes firsthand experiences to help form concepts of living and nonliving, of identity and causality. (EB)

Some uses of fruits and seeds to facilitate problem solving and cognitive processes in young children are suggested. (MR)

The authors employed the Raven Test of Logical Operations (RTLO) to assess development of cognitive structure for subjects of ages 8 to 19. Their conclusions support in part the development sequence described by Piaget. Lack of hierarchical order in some cognitive operations may indicate limitation of the instrument. (Author/EB)

Discusses the importance of questioning as a means of achieving independent intelligence, critical thinking, and learning to learn. Advocates a science program that encourages investigation, discovery, and questioning. (MA)

Babies and young children learn through extensive experimenting and by being encouraged, unknowingly, by parents to use their multiple intelligences. Later, children are forced to conform to the narrow intelligence valued by the formal education system; those who can not adapt drop out. By using multiple intelligences, we access a greater portion…

The goal of this paper is to sketch the epistemological roots of constructivism, to clarify certain implications of Piaget's constructivist theory for science education, and to explicate the issues surrounding a specific research study and its replication. Constructivist epistemology is described in terms of its emergence from rationalist,…

The achievement of bilingualism appears to have positive consequences for the bilingual child, enhancing universal aspects of cognitive functioning available to all normal children. However, little is yet known about the interaction between educational treatment and the input factors the bilingual child brings to the situation. Focusing on the…

Discussed is the teaching method called the learning cycle and how it can be incorporated into science activities. Included are examples of how teachers and students can use the learning cycle to produce instructional materials. (KR)