5 Practices for Orchestrating Productive Task-Based Discussions in Science
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A01=Danielle Ross
A01=Jennifer Cartier
A01=Margaret Schwan Smith
A01=Mary Kay Stein
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Author_Danielle Ross
Author_Jennifer Cartier
Author_Margaret Schwan Smith
Author_Mary Kay Stein
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Product details
- ISBN 9780873537452
- Dimensions: 152 x 229mm
- Publication Date: 30 Dec 2013
- Publisher: National Council of Teachers of Mathematics,U.S.
- Publication City/Country: US
- Product Form: Paperback
- Language: English
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Robust and effective classroom discussions are essential for providing students with opportunities to simultaneously engage in science practises while learning key science content. Using numerous examples and science learning tasks, the authors show how teachers can plan the lesson to encourage students to not only learn science content but employ disciplinary practises as well. This volume outlines the five practises teachers need for facilitating effective inquiry-oriented classrooms:
Anticipate what students will do, what strategies they will use in solving a problem, monitor their work as they approach the problem in class, select students whose strategies are worth discussing in class, sequence those students’ presentations to maximise their potential to increase students’ learning, connect the strategies and ideas in a way that helps students understand the science learned.
The 5 Practices framework identifies a set of instructional practises that will help teachers achieve high-demand learning objectives by using student work as the launching point for discussions in which important scientific ideas are brought to the surface, contradictions are exposed and understandings are developed or consolidated.
Anticipate what students will do, what strategies they will use in solving a problem, monitor their work as they approach the problem in class, select students whose strategies are worth discussing in class, sequence those students’ presentations to maximise their potential to increase students’ learning, connect the strategies and ideas in a way that helps students understand the science learned.
The 5 Practices framework identifies a set of instructional practises that will help teachers achieve high-demand learning objectives by using student work as the launching point for discussions in which important scientific ideas are brought to the surface, contradictions are exposed and understandings are developed or consolidated.
Margaret Smith holds a joint appointment at the University of Pittsburgh as professor of mathematics education in the School of Education and as Senior Scientist at the Learning Research and Development Center. Her research focuses on what teachers learn from the professional education experiences in which they engage.
Jennifer Cartier is the director of teacher education and a member of the science education faculty at the University of Pittsburgh. Her work focuses on the design and facilitation of learning contexts for pre-service and early career teachers.
Mary Kay Stein holds a joint appointment at the University of Pittsburgh as professor of learning sciences and policy and as Senior Scientist at the Learning Research and Development Center. Her research focuses on mathematics teaching and learning in classrooms and the ways in which policy and organisational conditions shape teachers’ practise.
Danielle K. Ross is a teaching fellow and doctoral candidate in science education at the School of Education of the University of Pittsburgh. Her work focuses on teacher learning and the design of learning contexts for beginning teachers. She was previously a biology and ecology teacher at Leechburg Area School District in Leechburg, Pennsylvania.
Jennifer Cartier is the director of teacher education and a member of the science education faculty at the University of Pittsburgh. Her work focuses on the design and facilitation of learning contexts for pre-service and early career teachers.
Mary Kay Stein holds a joint appointment at the University of Pittsburgh as professor of learning sciences and policy and as Senior Scientist at the Learning Research and Development Center. Her research focuses on mathematics teaching and learning in classrooms and the ways in which policy and organisational conditions shape teachers’ practise.
Danielle K. Ross is a teaching fellow and doctoral candidate in science education at the School of Education of the University of Pittsburgh. Her work focuses on teacher learning and the design of learning contexts for beginning teachers. She was previously a biology and ecology teacher at Leechburg Area School District in Leechburg, Pennsylvania.
