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Controlled investigations, the classic sort of science experiment that involved controlled and dependent variables, have been the source of much scientific knowledge over the years. Learners will engage with science through controlled investigations using Project-Based Learning, or PBL, a student-centered pedagogy that involves active and inquiry-based learning. Each project asks student groups to consider an essential question to form a hypothesis and use technology, research, and experimentation to prove or disprove the hypothesis. Sidebars give learners context for what they're learning in each chapter, and a comprehensive list of useful, PBL-friendly tools is provided for reference.
This book empowers teens by tapping into their interests and imaginations through opportunities to design unique science projects. Intriguing hands-on projects are closely tied to the Next Generation Science Standards. Fun projects like growing hydroponic plants and attention-grabbing topics like slime and electromagnetic trains draw students into active learning. Curiosity-sparking sidebars include high-interest topics like space exploration and satellites. Through project-based learning students develop strategies for testing, analyzing data, and using critical thinking. Readers learn to present their discoveries with peer presentations. The author, a degreed chemical engineer and professional project manager, voices genuine enthusiasm for science projects.
Taking a cue from notable scientists such as Charles Darwin and Jane Goodall, project-based learning in field investigations invites students to explore science outside the classroom. One way to inspire readers' excitement and curiosity about science is to empower them with the tools to find real-world answers to big questions. A field investigation is a scientific research process that involves a systematic collection of data from the environment that contributes to a better understanding of science concepts in the natural world. Twelve hands-on projects with subjects correlate to the Next Generation Science Standards, including field investigations in physics, life sciences, and engineering design.
Engaging in secondary research investigations allows students to actively explore far-reaching, real-world issues without specialized equipment or spending decades generating usable data. This resource's projects establish a step-by-step process to support the design and completion of research investigations in many scientific disciplines. Students will organize, analyze, and draw conclusions from raw scientific data while researching timely, relevant topics of personal interest. With tips on how to evaluate potential bias, organize and sustain a prolonged research project, and communicate scientific findings, this book prepares students to excel in advanced coursework, and also help launch them into the world as scientifically literate, conscientious global citizens.
Researchers, historians, and philosophers of science have debated the nature of scientific research in education for more than 100 years. Recent enthusiasm for "evidence-based" policy and practice in educationâ€"now codified in the federal law that authorizes the bulk of elementary and secondary education programsâ€"have brought a new sense of urgency to understanding the ways in which the basic tenets of science manifest in the study of teaching, learning, and schooling. Scientific Research in Education describes the similarities and differences between scientific inquiry in education and scientific inquiry in other fields and disciplines and provides a number of examples to illustrate these ideas. Its main argument is that all scientific endeavors share a common set of principles, and that each fieldâ€"including education researchâ€"develops a specialization that accounts for the particulars of what is being studied. The book also provides suggestions for how the federal government can best support high-quality scientific research in education.
This book is designed to introduce doctoral and graduate students to the process of conducting scientific research in the social sciences, business, education, public health, and related disciplines. It is a one-stop, comprehensive, and compact source for foundational concepts in behavioral research, and can serve as a stand-alone text or as a supplement to research readings in any doctoral seminar or research methods class. This book is currently used as a research text at universities on six continents and will shortly be available in nine different languages.
One of the pathways by which the scientific community confirms the validity of a new scientific discovery is by repeating the research that produced it. When a scientific effort fails to independently confirm the computations or results of a previous study, some fear that it may be a symptom of a lack of rigor in science, while others argue that such an observed inconsistency can be an important precursor to new discovery. Concerns about reproducibility and replicability have been expressed in both scientific and popular media. As these concerns came to light, Congress requested that the National Academies of Sciences, Engineering, and Medicine conduct a study to assess the extent of issues related to reproducibility and replicability and to offer recommendations for improving rigor and transparency in scientific research. Reproducibility and Replicability in Science defines reproducibility and replicability and examines the factors that may lead to non-reproducibility and non-replicability in research. Unlike the typical expectation of reproducibility between two computations, expectations about replicability are more nuanced, and in some cases a lack of replicability can aid the process of scientific discovery. This report provides recommendations to researchers, academic institutions, journals, and funders on steps they can take to improve reproducibility and replicability in science.
This instructional book gets the teacher vote for a blue ribbon! Nine units cover all of the steps that students will need to follow when preparing science fair projects. Sections include choosing a prompt question, conducting research, designing a study, drawing result conclusions, and presenting findings. A project time line, standard form letters, and two additional units provide helpful information for teachers and parents. Mark Twain Media Publishing Company specializes in providing captivating, supplemental books and decorative resources to complement middle- and upper-grade classrooms. Designed by leading educators, the product line covers a range of subjects including mathematics, sciences, language arts, social studies, history, government, fine arts, and character. Mark Twain Media also provides innovative classroom solutions for bulletin boards and interactive whiteboards. Since 1977, Mark Twain Media has remained a reliable source for a wide variety of engaging classroom resources.