Fisheries scientists make sure that fish populations ("fisheries") are managed properly, neither over- or under-utilized, to maintain long-term economic and ecological stability. Scientists collect data and conduct surveys to determine fish populations, and then make recommendations about how many fish may be caught by commercial and…

If you've ever asked yourself whether problem-based learning (PBL) can bring new life to both your teaching and your students' learning, here's your answer: Yes. This all-in-one guide will help you engage your students in scenarios that represent real-world science in all its messy, thought-provoking glory. The scenarios will prompt K-12 students…

"Problem-Based Learning in the Physical Science Classroom, K-12" will help your students truly understand concepts such as motion, energy, and magnetism in true-to-life contexts. The book offers a comprehensive description of why, how, and when to implement problem-based learning (PBL) in your curriculum. Its 14 developmentally…

"Problem-Based Learning in the Life Science Classroom, K-12" offers a great new way to ignite your creativity. Authors Tom McConnell, Joyce Parker, and Janet Eberhardt show you how to engage students with scenarios that represent real-world science in all its messy, thought-provoking glory. The scenarios prompt K-12 learners to immerse…

Creative thinking is important to scientists and engineers as they frame their work and engage in the practices of their fields. Elementary-age children need opportunities to think about and develop an idea from its inception through to its conclusion to expand their thinking and engage in scientific processes. Generating and expanding on ideas…

This booklet introduces the SM-14 (Scientific Method) Formula and lists characteristics of the scientific method. A history and progression of the scientific method is also featured. Contents include: (1) The Basic Principles of the Scientific Method; (2) Submitting Ideas Incorporating SM-14; (3) The 11 Stages of the SM-14 Formula and Famous…

Presents nine science activities to help students improve their thinking and problem solving skills. Activities cover the science process skills of classifying, ordering, space-time relationships, inferring, predicting, and elaborating. (MKR)

This book of activities uses problem solving to help students develop the basic science process skills of observing, predicting, designing/experimenting, eliminating, and drawing conclusions. The activities are divided into two sections: Dynamo Demos and Creative Challenges. The teacher-led Dynamo Demos help students to develop science process…

This book of activities uses problem solving to help students develop the basic science process skills of observing, predicting, designing/experimenting, eliminating, and drawing conclusions. The activities are divided into two sections: Dynamo Demos and Creative Challenges. The teacher-led Dynamo Demos help students to develop science process…

Explains a taxonomy of basic skills of science practicals that is used in the assessment of secondary science students. Details the assessment scheme which involves the evaluation of students through laboratory practical examinations, observational assessment, and written records of academic sessions. (DDR)

Describes an alternative assessment approach to measure the knowledge and skills of students at the end of a hands-on, process-, and concept-oriented science program. Four segments of the evaluation are: general knowledge, laboratory skills, critical thinking and problem-solving skills, and teacher-specific assessments. Emphasizes retention of…

Presents an activity in which students address a problem that allows them to use satellite images and fishing charts to predict where and how to fish, realize the need for conversion data, and discuss how satellite images can be used to exploit wildlife. Contains 16 references. (DDR)

Advocates using computer-simulated learning environments to allow students to develop their own problem-solving rules when it comes to collecting and evaluating scientific data. Describes the use of "Identibacter interactus" to simulate identification of an unknown microorganism. (WRM)

Describes an experimental system based on an engineered strain of bakers' yeast that is designed to involve students in the process by which scientific knowledge is generated. Students are asked to determine why the yeast grow to form a reproducible pattern of red and white. (WRM)

The possibility of life on other planets holds enormous fascination for people of all ages. This interdisciplinary learning kit uses that theme to launch scientific learning in young students. Through a series of hands-on activities, it directs participants to solve an outer space mystery thereby acquiring and developing scientific knowledge and…