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This second edition of Project-Based Learning (PBL) presents an original approach to Science, Technology, Engineering and Mathematics (STEM) centric PBL. We define PBL as an “ill-defined task with a well-defined outcome,” which is consistent with our engineering design philosophy and the accountability highlighted in a standards-based environment. This model emphasizes a backward design that is initiated by well-defined outcomes, tied to local, state, or national standard that provide teachers with a framework guiding students’ design, solving, or completion of ill-defined tasks. This book was designed for middle and secondary teachers who want to improve engagement and provide contextualized learning for their students. However, the nature and scope of the content covered in the 14 chapters are appropriate for preservice teachers as well as for advanced graduate method courses. New to this edition is revised and expanded coverage of STEM PBL, including implementing STEM PBL with English Language Learners and the use of technology in PBL. The book also includes many new teacher-friendly forms, such as advanced organizers, team contracts for STEM PBL, and rubrics for assessing PBL in a larger format.

Teaching --- STEM (Science Technology Engineering Mathematics) --- onderwijs

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Teaching --- STEM (Science Technology Engineering Mathematics) --- onderwijs --- opvoeding

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This text contains 25 Project-Based Learning (PBL) lessons written by a combination of undergraduate preservice teachers, inservice teachers, and graduate students. Everyone who wrote a chapter strives to improve STEM education to help others implement standards-based STEM instruction that takes learning in isolation to greater accountability through integrated and meaningful tasks that answer the question every teacher dreads: When am I going to use this? The PBLs were written to implement in middle and high-school classrooms. All of them are interdisciplinary in nature. We have divided them into six themes: construction and design, water, environment, mixtures, technology, nutrition and genetics. Each lesson contains a “schedule at a glance” and the “well-defined outcome” so you can quickly see how a particular PBL fits into your curriculum. Objectives are listed along with STEM connections written as objectives. We have included all materials needed and then each day of activities including an imbedded engagement, exploration, explanation, evaluation (including rubrics), and extension. We have tried to include everything necessary for successful implementation. This practical book is the perfect companion to the handbook for learning about implementing PBLs: Project-Based Learning: An Integrated Science, Technology, Engineering, and Mathematics (STEM) Approach – second edition.

Teaching --- STEM (Science Technology Engineering Mathematics) --- onderwijs --- opvoeding

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"A “Sci-Book” or “Science Notebook” serves as an essential companion to the science curriculum supplement, STEPS to STEM. As students learn key concepts in the seven “big ideas” in this program (Electricity & Magnetism; Air & Flight; Water & Weather; Plants & Animals; Earth & Space; Matter & Motion; Light & Sound), they record their ideas, plans, and evidence. There is ample space for students to keep track of their observations and findings, as well as a section to reflect upon the use of “Science and Engineering Practices” as set forth in the Next Generation Science Standards (NGSS).  Using a science notebook is reflective of the behavior of scientists. One of the pillars of the Nature of Science is that scientists must document their work to publish their research results; it is a necessary part of the scientific enterprise. This is important because STEPS to STEM is a program for young scientists who learn within a community of scient ists. Helping students to think and act like scientists is a critical feature of this program. Students learn that they need to keep a written record if they are to successfully share their discoveries and curiosities with their classmates and with the teacher. Teachers should also model writing in science to help instill a sense of purpose and pride in using and maintaining a Sci-Book. Lastly, students’ documentation can serve as a valuable form of authentic assessment; teachers can utilize Sci-Books to monitor the learning process and the development of science skills.".

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This volume focuses on selected innovative programs designed to augment the science, engineering, engineering and mathematics (STEM) workforce through increasing and enhancing the participation of under-represented groups. The programs span the STEM career pathway—primary, secondary, and tertiary education—and professional development and socialization—in the United States, South Africa, and New Zealand. Similarities as well as differences between and among programs across nations will be systematically analyzed for lessons learned. The conceptualization for this volume developed over the past several years during various international conferences—starting in Havana, Cuba in 2006, and continuing at meetings in Japan (2014), South Africa (2013 and 2015), and New Zealand (2015).

Didactics --- Educational sciences --- onderwijspolitiek --- STEM (Science Technology Engineering Mathematics) --- didactiek