Colleges throughout the United States typically expect their students to take at least one course in the sciences to fulfill liberal studies curriculum requirements. For nonscience majors, the choice of science class can include introductory chemistry, introductory biology, and astronomy, among others. Based upon interactions both in and out of…

In this paper, we will present and discuss data from a research project called MIRACLE, in which high school students learned about energy and energy transformation in a technology-rich learning environment. This learning environment spanned across a classroom, a science center, and an online platform specially designed to support coherence across…

Problem solving is a valuable skill in the science classroom. Students often use a variety of inquiry strategies to identify problems and their implications; develop action plans; locate relevant sources, information, and data; and formulate solutions. Problem solving is a logical, analytical, and sometimes creative process. The less tangible,…

The relationship between students' use of PeerWise, an online tool that facilitates peer learning through student-generated content in the form of multiple-choice questions (MCQs), and achievement, as measured by their performance in the end-of-module examinations, was investigated in 5 large early-years science modules (in physics, chemistry and…

Reviews approaches taken in meeting the design requirements in engineering programs. Highlights the value and applications of student involvement in design projects. Explains the features of an engineering case and advocates their use as an alternative or supplement to design projects. (ML)

Describes a study designed to determine whether the Biology Critical Thinking (BCT) project (which incorporates activities for developing specific critical thinking skills into the biology curriculum) enhances critical thinking skills and how it affects students' biological knowledge and classroom learning environment. Results indicate that BCT…

The Learning in Science Project (Primary)--LISP(P)--investigated the questions and explanations primary children have about rocks. Data were collected during teaching sessions from New Zealand students (ages 8-11) and Australian students (ages 10-11). The teaching sessions required the teacher to create a situation in which children generated some…

The topic of metals is frequently taught in primary schools. However, when metals are suggested as one of a series of topics for study, students often initially show little enthusiasm for the topic. To determine the ideas that children have about metals the Learning in Science Project (Primary)--LISP(P)--interviewed thirty-eight 9- to 10-year-old…

An alternative approach for teaching primary school science has been proposed by the Learning in Science Project (Primary--LISP(P). This study investigated the use of the approach during three series of lessons on the topic "metals." Each series followed the same general pattern: (1) an introductory session to stimulate children to ask…

The Learning in Science Project (Primary)--LISP(P)--investigated the questions and explanations primary children have about spiders. The data comprise 112 questions and 104 explanations (included in appendices) offered by children after being shown a picture of a spider. Additional data were collected during individual interviews with 18 students.…

The Learning in Science Project (Primary)--LISP(P)--investigated the ideas and interests about spiders held by 8- to 10-year-old children. Data included 303 questions--and answers to some of the questions--about spiders obtained from children in four classes and from responses obtained during individual interviews with 10 children from each age…

The Learning in Science Project (Primary--LISP(P)--designed to investigate the teaching and learning of science in New Zealand primary schools, arises from the work of the original Learning in Science Project (LISP). This paper is an attempt to clarify the direction of LISP(P) as it moves toward the central phase of the research. The ideas…

The stand taken in the Learning in Science Project (Primary)--LISP(P)--is that primary school science should be centrally concerned with children's present interaction with their world rather than their future science education. Further, it has been decided that one of the LISP(P) foci should be on questions that children ask and how these…

One area explored in the Learning in Science Project (Primary--LISP(P)--was children's questions about and explanations of phenomena. Data were obtained from work with classes of children, interviews with children, informal discussions with teachers, and observations of two teachers using an alternative teaching model (outlined in an appendix)…

The Learning in Science Project (Primary)--LISP(P)--was designed to investigate the teaching and learning of science in the primary school. This paper summarizes the work undertaken and the findings obtained during the first 9 months of the project. During the first 6 months, an exploratory phase, similar to the original Learning in Science…