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Journal of Science Education for Students with Disabilities

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Journal of Science Education for Students with Disabilities (JSESD)

The Journal of Science Education for Students with Disabilities is a multi-disciplinary, peer-reviewed journal with an international focus on providing information on science education for students with varying types and levels of disabilities. We aspire to publish the best of theoretical research and practical application and we review articles by both special and general educators. Interesting topics have included innovative curricular ideas, instructional adaptations, research-based modifications, best practices, and management issues in science education.

Copyright Statement

Journal of Science Education for Students with Disabilities

Publication rights to works is granted to Journal of Science Education for Students with Disabilities, however, full copyright for works published in this journal is retained by the author(s). The author(s) may post their works online in an institutional repository, on their University departmental website, or on their own personal websites

Stem Education Discrepancy In The United States And Singapore, Elizabeth K. Worsham, Aaron Clevenger, Kelly A. Whealan-George

Beyond: Undergraduate Research Journal

One of the hottest topics over the past several years has been science, technology, engineering and mathematics (STEM) education. The United States is lagging behind in the STEM education rankings as compared to its counterparts in Europe and Asia, including Singapore, ranked second overall in math and science based on the Program of International Student Assessment. Even as such a small country, Singapore has one of the best education systems in the world, one of the busiest ports, and is a leader in the science and technology market. One factor of this is the family life and the culture that …

Race, Space, And The Conflict Inside Us, Francis Su

All HMC Faculty Publications and Research

Talking about race is hard. Our nation is wrestling with some open wounds about race. These sores have been around a while, but they have been brought to light recently by technology, politics, and an increasingly diverse population. And regardless of the outcome of the U.S. presidential election, we will all need to work at healing these sores, not just in our personal lives, but in our classrooms and in our profession.

Quantitative Reasoning - Mathematical Modeling In The Sciences, Robert L. Mayes Dr.

Annual Symposium on Biomathematics and Ecology Education and Research

No abstract provided.

Quantifying Life: A Computational Approach To Teaching Mathematics To Biology Students, Dmitry Kondrashov

Annual Symposium on Biomathematics and Ecology Education and Research

No abstract provided.

Teaching Nonlinear Dynamics To Biology Freshmen Improves Math Interest And Physics Performance, Jane Shevtsov, Alan Garfinkel, William Conley, Kevin Eagan, Erin Sanders, Blaire Van Valkenburgh

Annual Symposium on Biomathematics and Ecology Education and Research

No abstract provided.

Freedom Through Inquiry, Francis Su

All HMC Faculty Publications and Research

I delivered this speech at the Inquiry‐Based Learning Forum & 19th Annual Legacy of R.L. Moore Conference on August 4, 2016. It is partly an homage to an influential teacher, partly an excuse to articulate what makes some styles of teaching so effective, and partly an excuse to talk about difficult issues facing our nation and our classrooms today.

Quantitative Literacy At Michigan State University, 3: Designing General Education Mathematics Courses, Samuel L. Tunstall, Vincent Melfi, Jeffrey Craig, Richard Edwards, Andrew Krause, Bronlyn Wassink, Victor Piercey

Numeracy

In this paper, we describe the process at Michigan State University whereby we have created two courses, Math 101 and 102, designed to foster numeracy and alleviate mathematics anxiety. The courses--which are not sequential--provide a means of satisfying the University's general education requirement without taking college algebra or calculus, among other options. They are context-driven and broken into modules such as "The World and Its People" and "Health and Risk." They have been highly successful thus far, with students providing positive feedback on their interest in the material and the utility they see of it in their daily lives. We …

The Explorations Program: Benefits Of Single-Session, Research- Focused Classes For Students And Postdoctoral Instructors, Jeremy L. Hsu, Anna M. Wrona, Sarah E. Brownell, Waheeda Khalfan

Biology, Chemistry, and Environmental Sciences Faculty Articles and Research

We present an update to Explorations, a program at Stanford University that allows undergraduates in an introductory biology course to explore specialized topics in the biological sciences while providing graduate students and postdoctoral scholars the unique opportunity to develop and teach single-session, research-focused classes. We provide an assessment of eight iterations of the program, using program attendance, student and instructor evaluations, senior exit surveys, course grades, and completion of undergraduate honors theses to assess the impact of our program on students and instructors. Students rated their experiences highly, and most reported that the program had a positive impact on their …

Traversing Stem: Creating Pathways For Social Justice In The United States, Remy Dou

Department of Teaching and Learning

The system that once motivated Americans to pursue science, technology, engineering and mathematics (STEM) careers now presents obstacles to racial and ethnic minorities, women, and the poor. This paper highlights both the advantages and hindrances inherent in STEM professions while advocating for improved access to these pathways.

Beyond Behavior, Craig C. Laupheimer

Scholarship and Engagement in Education

Teaching to engage students with Attention Deficit Hyperactivity Disorder (ADHD) can inspire the whole classroom and make teaching and learning engaging and exciting. Although teachers and students alike face a challenging educational landscape, much can be done to empower students with special needs. Teaching with the whole classroom in mind with an emphasis on hands on, explorative and inspirational learning experiences to accommodate for these students strengthens and causes student engagement and agency. This article highlights the challenges and potential breakthroughs possible for classroom instruction specifically where the ADHD student is concerned and looks towards teaching mindfulness and empowerment as …

Pre-College Deaf Students’ Understanding Of Fractional Concepts: What We Know And What We Do Not Know, Keith Mousley, Christopher Kurz

Journal of Science Education for Students with Disabilities

Mathematical knowledge and skills are crucial to success in academics and the workplace. The Common Core State Standards emphasizes fraction teaching and learning in elementary school. This mixed-method study explores fraction concept understanding among 14 deaf and hard of hearing participants between the ages of 8 and 16, as quantitatively measured by their ability to describe the properties of fractional numbers, convert between fractional numbers and their visual representations, and determine the order and equivalence of fractional numbers. Furthermore, the qualitative study was supplemented by interviews with the deaf participants and surveys with their parents and teachers to examine use …

Fostering An Inclusive Stem Workforce, Cary A. Supalo Dr.

Journal of Science Education for Students with Disabilities

The following keynote address was delivered by Dr. Cary A. Supalo at the 2015 Training Workforce and Development and diversity conference which is one of the divisions that is part of NIH’s general medical sciences. This conference was attended by over 500 program directors from all of the T32 sponsored projects in 2015. This presentation discussed the importance of a full inclusive STEM workforce that includes persons with disabilities

6.0.B Discussion Historical Idea Of Heat As Substance, Christopher F. Bauer

Day 06 Feb 10 Gas properties and laws. Historical ideas about heat.

WELCOME to WINDOWS on the INQUIRY CLASSROOM!

You have landed on a piece of a National Science Foundation Project (DUE 1245730) directed by Professor Chris Bauer, Chemistry Department, University of New Hampshire. This is one part of a completely documented inquiry-based university science course called “Fire & Ice” which explores the nature of heat and temperature. There are multiple video perspectives and commentary from instructors and students, and documents of all course materials (agenda, instructions, student work). It’s too complicated to explain here. Take a look at the user orientation document at this link.

6.0.C.1 Hands-On Phase Properties Of Gases, Christopher F. Bauer

Day 06 Feb 10 Gas properties and laws. Historical ideas about heat.

WELCOME to WINDOWS on the INQUIRY CLASSROOM!

You have landed on a piece of a National Science Foundation Project (DUE 1245730) directed by Professor Chris Bauer, Chemistry Department, University of New Hampshire. This is one part of a completely documented inquiry-based university science course called “Fire & Ice” which explores the nature of heat and temperature. There are multiple video perspectives and commentary from instructors and students, and documents of all course materials (agenda, instructions, student work). It’s too complicated to explain here. Take a look at the user orientation document at this link.

6.0.A Daily Outline, Christopher F. Bauer

Day 06 Feb 10 Gas properties and laws. Historical ideas about heat.

WELCOME to WINDOWS on the INQUIRY CLASSROOM!

You have landed on a piece of a National Science Foundation Project (DUE 1245730) directed by Professor Chris Bauer, Chemistry Department, University of New Hampshire. This is one part of a completely documented inquiry-based university science course called “Fire & Ice” which explores the nature of heat and temperature. There are multiple video perspectives and commentary from instructors and students, and documents of all course materials (agenda, instructions, student work). It’s too complicated to explain here. Take a look at the user orientation document at this link.

6.0.C.2 Hands-On Phet Phase Properties, Christopher F. Bauer

Day 06 Feb 10 Gas properties and laws. Historical ideas about heat.

WELCOME to WINDOWS on the INQUIRY CLASSROOM!

You have landed on a piece of a National Science Foundation Project (DUE 1245730) directed by Professor Chris Bauer, Chemistry Department, University of New Hampshire. This is one part of a completely documented inquiry-based university science course called “Fire & Ice” which explores the nature of heat and temperature. There are multiple video perspectives and commentary from instructors and students, and documents of all course materials (agenda, instructions, student work). It’s too complicated to explain here. Take a look at the user orientation document at this link.

1.0.G Message End Of Class Day 1, Chris F. Bauer

Day 01 Jan 20 Introduction to inquiry. Temperature perception.

WELCOME to WINDOWS on the INQUIRY CLASSROOM!

You have landed on a piece of a National Science Foundation Project (DUE 1245730) directed by Professor Chris Bauer, Chemistry Department, University of New Hampshire. This is one part of a completely documented inquiry-based university science course called “Fire & Ice” which explores the nature of heat and temperature. There are multiple video perspectives and commentary from instructors and students, and documents of all course materials (agenda, instructions, student work). It’s too complicated to explain here. Take a look at the user orientation document at this link.

3.0.C Hands-On Liquid Nitrogen, Christopher F. Bauer

Day 03 Jan 29 The thermometer. Chemothermal sensation.

WELCOME to WINDOWS on the INQUIRY CLASSROOM!

You have landed on a piece of a National Science Foundation Project (DUE 1245730) directed by Professor Chris Bauer, Chemistry Department, University of New Hampshire. This is one part of a completely documented inquiry-based university science course called “Fire & Ice” which explores the nature of heat and temperature. There are multiple video perspectives and commentary from instructors and students, and documents of all course materials (agenda, instructions, student work). It’s too complicated to explain here. Take a look at the user orientation document at this link.

3.0.B Discussion Thermometer Development, Christopher F. Bauer

Day 03 Jan 29 The thermometer. Chemothermal sensation.

WELCOME to WINDOWS on the INQUIRY CLASSROOM!

You have landed on a piece of a National Science Foundation Project (DUE 1245730) directed by Professor Chris Bauer, Chemistry Department, University of New Hampshire. This is one part of a completely documented inquiry-based university science course called “Fire & Ice” which explores the nature of heat and temperature. There are multiple video perspectives and commentary from instructors and students, and documents of all course materials (agenda, instructions, student work). It’s too complicated to explain here. Take a look at the user orientation document at this link.

3.0.A Daily Outline, Christopher F. Bauer

Day 03 Jan 29 The thermometer. Chemothermal sensation.

WELCOME to WINDOWS on the INQUIRY CLASSROOM!

You have landed on a piece of a National Science Foundation Project (DUE 1245730) directed by Professor Chris Bauer, Chemistry Department, University of New Hampshire. This is one part of a completely documented inquiry-based university science course called “Fire & Ice” which explores the nature of heat and temperature. There are multiple video perspectives and commentary from instructors and students, and documents of all course materials (agenda, instructions, student work). It’s too complicated to explain here. Take a look at the user orientation document at this link.

Characterizing Mathematics Graduate Student Teaching Assistants’ Opportunities To Learn From Teaching, Yvonne Lai, Wendy Smith, Nathan Wakefield, Erica R. Miller, Julia St. Goar, Corbin M. Groothuis, Kelsey M. Wells

Department of Mathematics: Faculty Publications

Exemplary models to inform novice instruction and the development of graduate teaching assistants (TAs) exist. What is missing from the literature is the process of how graduate students in model professional development programs make sense of and enact the experiences offered. A first step to understanding TAs’ learning to teach is to characterize how and whether they link observations of student work to hypotheses about student thinking and then connect those hypotheses to future teaching actions. A reason to be interested in these connections is that their strength and coherence determine how well TAs can learn from experiences. We found …

5.0.A Daily Outline, Chris F. Bauer

Day 05 Feb 05 Simulation of Particulate model for gases. Kinetic Molecular Theory

WELCOME to WINDOWS on the INQUIRY CLASSROOM!

You have landed on a piece of a National Science Foundation Project (DUE 1245730) directed by Professor Chris Bauer, Chemistry Department, University of New Hampshire. This is one part of a completely documented inquiry-based university science course called “Fire & Ice” which explores the nature of heat and temperature. There are multiple video perspectives and commentary from instructors and students, and documents of all course materials (agenda, instructions, student work). It’s too complicated to explain here. Take a look at the user orientation document at this link.

5.0.D Materials Day 5 Compressibility And Charles Law, Chris F. Bauer

Day 05 Feb 05 Simulation of Particulate model for gases. Kinetic Molecular Theory

WELCOME to WINDOWS on the INQUIRY CLASSROOM!

You have landed on a piece of a National Science Foundation Project (DUE 1245730) directed by Professor Chris Bauer, Chemistry Department, University of New Hampshire. This is one part of a completely documented inquiry-based university science course called “Fire & Ice” which explores the nature of heat and temperature. There are multiple video perspectives and commentary from instructors and students, and documents of all course materials (agenda, instructions, student work). It’s too complicated to explain here. Take a look at the user orientation document at this link.

5.0.C.1 Hands-On Gas Law Experiments, Chris F. Bauer

Day 05 Feb 05 Simulation of Particulate model for gases. Kinetic Molecular Theory

WELCOME to WINDOWS on the INQUIRY CLASSROOM!

You have landed on a piece of a National Science Foundation Project (DUE 1245730) directed by Professor Chris Bauer, Chemistry Department, University of New Hampshire. This is one part of a completely documented inquiry-based university science course called “Fire & Ice” which explores the nature of heat and temperature. There are multiple video perspectives and commentary from instructors and students, and documents of all course materials (agenda, instructions, student work). It’s too complicated to explain here. Take a look at the user orientation document at this link.

5.0.C.2 Hands-On Kinetic Theory Simulation, Chris F. Bauer

Day 05 Feb 05 Simulation of Particulate model for gases. Kinetic Molecular Theory

WELCOME to WINDOWS on the INQUIRY CLASSROOM!

You have landed on a piece of a National Science Foundation Project (DUE 1245730) directed by Professor Chris Bauer, Chemistry Department, University of New Hampshire. This is one part of a completely documented inquiry-based university science course called “Fire & Ice” which explores the nature of heat and temperature. There are multiple video perspectives and commentary from instructors and students, and documents of all course materials (agenda, instructions, student work). It’s too complicated to explain here. Take a look at the user orientation document at this link.

3.0.G Message End Of Class Day 3, Christopher F. Bauer

Day 03 Jan 29 The thermometer. Chemothermal sensation.

WELCOME to WINDOWS on the INQUIRY CLASSROOM!

You have landed on a piece of a National Science Foundation Project (DUE 1245730) directed by Professor Chris Bauer, Chemistry Department, University of New Hampshire. This is one part of a completely documented inquiry-based university science course called “Fire & Ice” which explores the nature of heat and temperature. There are multiple video perspectives and commentary from instructors and students, and documents of all course materials (agenda, instructions, student work). It’s too complicated to explain here. Take a look at the user orientation document at this link.

1.0.C Hands-On Temperature Sensation, Chris F. Bauer

Day 01 Jan 20 Introduction to inquiry. Temperature perception.

WELCOME to WINDOWS on the INQUIRY CLASSROOM!

You have landed on a piece of a National Science Foundation Project (DUE 1245730) directed by Professor Chris Bauer, Chemistry Department, University of New Hampshire. This is one part of a completely documented inquiry-based university science course called “Fire & Ice” which explores the nature of heat and temperature. There are multiple video perspectives and commentary from instructors and students, and documents of all course materials (agenda, instructions, student work). It’s too complicated to explain here. Take a look at the user orientation document at this link.

1.0.B Discussion Syllabus And Expectations, Chris F. Bauer

Day 01 Jan 20 Introduction to inquiry. Temperature perception.

WELCOME to WINDOWS on the INQUIRY CLASSROOM!

You have landed on a piece of a National Science Foundation Project (DUE 1245730) directed by Professor Chris Bauer, Chemistry Department, University of New Hampshire. This is one part of a completely documented inquiry-based university science course called “Fire & Ice” which explores the nature of heat and temperature. There are multiple video perspectives and commentary from instructors and students, and documents of all course materials (agenda, instructions, student work). It’s too complicated to explain here. Take a look at the user orientation document at this link.