An Interdisciplinary Guided Inquiry on Estuarine Transport Using a Computer Model in High School Classrooms

2012 ◽  
Vol 74 (1) ◽  
pp. 26-33 ◽  
Author(s):  
Kit Yu Karen Chan ◽  
Sylvia Yang ◽  
Max E. Maliska ◽  
Daniel Grünbaum
Keyword(s):  
Computer Model ◽  
Transport Model ◽  
Computer Models ◽  
Thinking Skills ◽  
Critical Thinking Skills ◽  
National Science Education Standards ◽  
Education Standards ◽  
Scientific Methods ◽  
Interdisciplinary Interaction ◽  
K 12

The National Science Education Standards have highlighted the importance of active learning and reflection for contemporary scientific methods in K–12 classrooms, including the use of models. Computer modeling and visualization are tools that researchers employ in their scientific inquiry process, and often computer models are used in collaborative projects across disciplines. The goal of this project was to develop and field-test a module that used a computer model to teach marine sciences content in an applied, inquiry-based, and collaborative manner. Students used an estuarine transport model to explore the question of how circulation patterns affect planktonic organisms, demonstrating the interdisciplinary interaction of physics and biology. Our experience suggests that computer models, when used for inquiry, can help foster students' understanding of the nature of science and critical-thinking skills.

scholarly journals Beyond the Museum Walls: Developing Inexpensive Discovery Trunks for k-12

2018 ◽  
Vol 2 ◽  
pp. e25925
Author(s):  
Julia Robinson
Keyword(s):  
Low Cost ◽  
Inquiry Learning ◽  
Thinking Skills ◽  
Critical Thinking Skills ◽  
Student Centered ◽  
Analytical Skills ◽  
New Knowledge ◽  
State Educational ◽  
Problem Solvers ◽  
K 12

Discovery Trunks - specimen-based educational kits - use museum collections and standardized curricula to catalyze critical thinking skills through inquiry learning. Inquiry learning facilitates the development of new knowledge by examining a novel situation in light of past experience - a crucial skill for a child in today’s unpredictable world. Inquiry learning empowers students by making them stronger and more confident in their discovery and synthesis of information. Discovery Trunks enhance learning opportunities for students, promote the parent institutions, and develop new audiences by taking the institutional mission beyond classroom walls. Such Trunks contain authentic, real world objects and inquiry lessons that align with state educational standards. Discovery Trunks encourage contemplative analytical skills, thoughtful communication, thorough exploration of a topic, and cultivate a citizenry of open-minded problem solvers. Through inquiry-based learning, we see key components of this personal investigation exemplified through student-centered, student-driven activities that connect new knowledge and prior knowledge. This presentation will deconstruct these multidisciplinary kits and their contents to guide museum professionals to explore effective, high value, low cost materials and methods to produce and advertise educational kits to the community. Offered as an essential outreach component, these educational kits cultivate tomorrow’s thinkers, movers, and laborers in an ever-changing society.

A Professional Development Framework for the Flipped Classroom Model

2016 ◽  
pp. 232-261
Author(s):  
Anne Katz ◽  
Tricia Muldoon Brown ◽  
Jackie Hee Young Kim
Keyword(s):  
Professional Development ◽  
Flipped Classroom ◽  
Thinking Skills ◽  
Development Project ◽  
Critical Thinking Skills ◽  
Read Aloud ◽  
Student Centered ◽  
Development Framework ◽  
Elementary Grade ◽  
K 12

A major goal of K-12 education is to create a student-centered classroom where educators are teaching to increase critical thinking skills, promote problem-based learning, and differentiate instruction. However, the reality is that many educators are challenged by the difficult task of creating such a learning environment in their classrooms. In this chapter, the authors will introduce a Flipped Classroom Professional Development project, a Title II Part A Higher Education Improving Teacher Quality State Grant initiative. This project centered on two goals. First, the authors sought to teach the flipped classroom model through an integrated literacy and math approach while “mathematizing” read-aloud instruction for primary and elementary grade educators. Secondly, the chapter describes efforts to expand teachers' repertoire of effective instructional, blended technology tools for teaching math and literacy. The authors will conclude with the potential of the Flipped Classroom model in K-5 settings based upon this professional development framework.

A Professional Development Framework for the Flipped Classroom Model

2016 ◽  
pp. 211-238
Author(s):  
Anne Katz ◽  
Tricia Muldoon Brown ◽  
Jackie Hee Young Kim
Keyword(s):  
Professional Development ◽  
Flipped Classroom ◽  
Thinking Skills ◽  
Development Project ◽  
Critical Thinking Skills ◽  
Read Aloud ◽  
Student Centered ◽  
Development Framework ◽  
Elementary Grade ◽  
K 12

A major goal of K-12 education is to create a student-centered classroom where educators are teaching to increase critical thinking skills, promote problem-based learning, and differentiate instruction. However, the reality is that many educators are challenged by the difficult task of creating such a learning environment in their classrooms. In this chapter, the authors will introduce a Flipped Classroom Professional Development project, a Title II Part A Higher Education Improving Teacher Quality State Grant initiative. This project centered on two goals. First, the authors sought to teach the flipped classroom model through an integrated literacy and math approach while “mathematizing” read-aloud instruction for primary and elementary grade educators. Secondly, the chapter describes efforts to expand teachers' repertoire of effective instructional, blended technology tools for teaching math and literacy. The authors will conclude with the potential of the Flipped Classroom model in K-5 settings based upon this professional development framework.

A Professional Development Framework for the Flipped Classroom Model

2016 ◽  
pp. 286-314
Author(s):  
Anne Katz ◽  
Tricia Muldoon Brown ◽  
Jackie HeeYoung Kim
Keyword(s):  
Professional Development ◽  
Flipped Classroom ◽  
Thinking Skills ◽  
Development Project ◽  
Critical Thinking Skills ◽  
Read Aloud ◽  
Student Centered ◽  
Development Framework ◽  
Elementary Grade ◽  
K 12

A major goal of K-12 education is to create a student-centered classroom where educators are teaching to increase critical thinking skills, promote problem-based learning, and differentiate instruction. However, the reality is that many educators are challenged by the difficult task of creating such a learning environment in their classrooms. In this chapter, the authors will introduce a Flipped Classroom Professional Development project, a Title II Part A Higher Education Improving Teacher Quality State Grant initiative. This project centered on two goals. First, the authors sought to teach the flipped classroom model through an integrated literacy and math approach while “mathematizing” read-aloud instruction for primary and elementary grade educators. Secondly, the chapter describes efforts to expand teachers' repertoire of effective instructional, blended technology tools for teaching math and literacy. The authors will conclude with the potential of the Flipped Classroom model in K-5 settings based upon this professional development framework.

Optimizing K-14 Instruction to Infuse 21st Century Skills

2013 ◽  
Vol 1583 ◽  
Author(s):  
Deborah Day ◽  
Cindy Guo ◽  
Nicole Ferrari ◽  
Heather Edgecumbe ◽  
Christine Broadbridge
Keyword(s):  
Critical Thinking ◽  
21St Century ◽  
Self Efficacy ◽  
21St Century Skills ◽  
Thinking Skills ◽  
Critical Thinking Skills ◽  
Technological Fluency ◽  
Subject Areas ◽  
K 12 ◽  
The Impact

ABSTRACTThis multi-phased study investigates the learning outcomes of courses taught in the K-14 classroom. Specifically, the methods and practices teachers use to develop and encourage 21st Century Skills including critical thinking skills and technological fluency in all subject areas, STEM and non-STEM related, are of great interest. Currently, these skills are in high demand in fields which develop advanced materials and are the backbone of the National Academiesdeveloped Frameworks for K-12 Science Education. Phase I participants in this study included high school and college educators while Phase II of the study will involve K-14 students. In this study, educators were asked to rate their teaching self-efficacy in two primary areas: critical thinking skills and technological fluency. This included questions related to components in their current curriculum as well as methods of assessment [e.g., rubrics]. The instrument created to measure self-efficacy was based on a modified ‘Science Teaching Efficacy Belief Instrument' (STEBI). All participants were from Connecticut. Results indicate that both STEM and non-STEM related subject areas offer an equally rich array of opportunities to effectively teach critical thinking and technological fluency at a variety of educational levels. The impact of Professional Development on teacher self-efficacy was of particular importance, especially in K-12 education.

A Completely Structured Training on the Angoff Standard-Setting Method for Developing Critical-Thinking Skills of Teachers

2019 ◽  
pp. 277-298
Author(s):  
Ifeoma Chika Iyioke
Keyword(s):  
Critical Thinking ◽  
Student Performance ◽  
Task Performance ◽  
Educational Achievement ◽  
Standard Setting ◽  
Thinking Skills ◽  
Critical Thinking Skills ◽  
Probability Judgments ◽  
Comprehensive Curriculum ◽  
K 12

This chapter presents a completely structured training (CST) for the Angoff standard-setting method. The CST was developed to address the challenges teachers face in making the required probability judgments about student performance. It includes a comprehensive curriculum and instruction, practice, and feedback to guide participants on task performance. Overall, the approach is useful for developing critical-thinking skills among teachers in the context of assessing and evaluating educational achievement. This chapter also describes and illustrates how to use the training to facilitate professional development for K–12 teachers through programming. Guidelines, lessons and recommendations for implementation and study of CST are also provided.

A Professional Development Framework for the Flipped Classroom Model

2016 ◽  
pp. 122-149 ◽  
Author(s):  
Anne Katz ◽  
Tricia Muldoon Brown ◽  
Jackie Hee Young Kim
Keyword(s):  
Professional Development ◽  
Flipped Classroom ◽  
Thinking Skills ◽  
Development Project ◽  
Critical Thinking Skills ◽  
Read Aloud ◽  
Student Centered ◽  
Development Framework ◽  
Elementary Grade ◽  
K 12

A major goal of K-12 education is to create a student-centered classroom where educators are teaching to increase critical thinking skills, promote problem-based learning, and differentiate instruction. However, the reality is that many educators are challenged by the difficult task of creating such a learning environment in their classrooms. In this chapter, the authors will introduce a Flipped Classroom Professional Development project, a Title II Part A Higher Education Improving Teacher Quality State Grant initiative. This project centered on two goals. First, the authors sought to teach the flipped classroom model through an integrated literacy and math approach while “mathematizing” read-aloud instruction for primary and elementary grade educators. Secondly, the chapter describes efforts to expand teachers' repertoire of effective instructional, blended technology tools for teaching math and literacy. The authors will conclude with the potential of the Flipped Classroom model in K-5 settings based upon this professional development framework.

A Professional Development Framework for the Flipped Classroom Model

2016 ◽  
pp. 307-335
Author(s):  
Anne Katz ◽  
Tricia Muldoon Brown ◽  
Jackie Hee Young Kim
Keyword(s):  
Professional Development ◽  
Flipped Classroom ◽  
Thinking Skills ◽  
Development Project ◽  
Critical Thinking Skills ◽  
Read Aloud ◽  
Student Centered ◽  
Development Framework ◽  
Elementary Grade ◽  
K 12

A major goal of K-12 education is to create a student-centered classroom where educators are teaching to increase critical thinking skills, promote problem-based learning, and differentiate instruction. However, the reality is that many educators are challenged by the difficult task of creating such a learning environment in their classrooms. In this chapter, the authors will introduce a Flipped Classroom Professional Development project, a Title II Part A Higher Education Improving Teacher Quality State Grant initiative. This project centered on two goals. First, the authors sought to teach the flipped classroom model through an integrated literacy and math approach while “mathematizing” read-aloud instruction for primary and elementary grade educators. Secondly, the chapter describes efforts to expand teachers' repertoire of effective instructional, blended technology tools for teaching math and literacy. The authors will conclude with the potential of the Flipped Classroom model in K-5 settings based upon this professional development framework.

STEM Academic Enrichment and Professional Development Programs for K-12 Urban Students and Teachers

2013 ◽  
pp. 1576-1603
Author(s):  
Cecelia Wright Brown ◽  
Kevin A. Peters
Keyword(s):  
Professional Development ◽  
School District ◽  
Urban School ◽  
Thinking Skills ◽  
National Standards ◽  
Urban School District ◽  
National Science Education Standards ◽  
Stem Programs ◽  
National Science ◽  
K 12

This chapter highlights exemplary STEM programs in an urban school district that can be replicated in K-12 schools. The programs were developed from partnerships established between Urban Higher Education Institutions (UHEIs) and K-12 students and teachers in an urban school district. The key criteria for the assessment of these programs, both quantitative and qualitative, were based on guidelines cited from the Building Engineering and Science Talent (BEST) Commission, the National Science Education Standards, and the National Science Resources Center: (a) challenging content/curriculum; (b) inquiry-based learning; (c) clearly defined outcomes and assessments; and (d) sustained commitment and support. The development of “real-world applications” promoted critical thinking skills and were linked to STEM state and national standards. Teachers were offered STEM professional development that enhanced their content knowledge and pedagogy. Each program case was independent of each other; therefore, they were not compared or contrasted.

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