Teaching and Learning Mathematics Online

Herausgeber: Howard II, James P; Beyers, John F

• Gebundenes Buch

Produktbeschreibung

Teaching and Learning Mathematics Online bridges these issues by presenting meaningful and practical solutions for teaching mathematics and statistics online. It focuses on the problems observed by mathematics instructors currently working in the field.

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Produktdetails

• Verlag: CRC Press
• Seitenzahl: 438
• Erscheinungstermin: 15. Juni 2020
• Englisch
• Abmessung: 257mm x 178mm x 28mm
• Gewicht: 975g
• ISBN-13: 9780815372363
• ISBN-10: 0815372361
• Artikelnr.: 60369943

Autorenporträt

James P. Howard, II is a scientist at the Johns Hopkins Applied Physics Laboratory. Previously, he worked for the Board of Governors of the Federal Reserve System as an internal consultant on statistical computing. He has also been a consultant to numerous government agencies. Additionally, he has taught mathematics, statistics, and public affairs since 2010. He has a Ph.D. in public policy from the University of Maryland Baltimore County. John F. Beyers, PhD, is Program Chair and Professor of Mathematics and Statistics at the University of Maryland Global Campus (formerly UMUC). Dr Beyers leads a global department of 200+ faculty to serve the educational needs of over 20,000 non-traditional, underrepresented undergraduate students globally. He is responsible for new program development, curriculum planning, teaching effectiveness and Learning Outcomes Assessment. Prior to his current position, Dr Beyers was the Associate Director for the Center of Distance Education at Johns Hopkins University. Dr Beyers has an extensive academic background as a faculty member and leader of one of the largest online mathematics and statistics departments in the country. While earning a PhD in mathematics education from American University (his dissertation was the first to earn "pass with distinction" in over two decades), Dr Beyers began his career in innovative education as Research Coordinator on the NCTM Standards 2000Project, which resulted in the national standards document Principles and Standards for School Mathematics (NCTM, 2000). He later worked with post-secondary students and faculty at Johns Hopkins University's Center for Distance Education on innovative distance education models to determine how difficult/easy is it for faculty to embed or integrate technologies into a course and in harmony with their pedagogic model. Dr Beyers has been recognized for his efforts as an innovative academic leader in higher education. In 2012, he received the UMUC Presidential Award and the University System of Maryland's Faculty Fellowship Award from the Chancellor's Office. In 2007, he received the Adelle F Robertson National Educator of the Year Award (UPCEA) and in 2006, he received the Alexander Charters Mid-Atlantic Region Educator of the Year Award (UPCEA). Dr Beyers has published and presented extensively on the topics of course redesign, adaptive and accelerated learning models, distance learning, and mathematics education. His current interest is focused on how adaptive learning can be used to deepen the quality of faculty-student engagement and enable development of higher order thinking skills. Dr Beyers has an extensive network of academic colleagues and adaptive learning vendors to establish an Adaptive Resources Community (ARC).

Inhaltsangabe

Part I. Course Design. 1. Teaching Cross-Listed Mathematics Courses Online.
2. What Do We Know about Student Learning from Online Mathematics Homework?
3. Designing mathematics hybrid classrooms in high school: the case of
Valeria. 4. Designing mathematics hybrid classrooms in high school: the
cases of Nicoletta and Lorenza. 5. Upper Level Mathematics and Statistics
Courses Shared Across Campuses. 6. Online Statistics Teaching and Learning.
7. Statistics for Engineers. Part II. Student Interaction. 8. Encouraging
higher-order thinking in online and hybrid mathematics and statistics
courses. 9. Tools for communication and interaction in online mathematics
teaching and learning. 10. Managing Students' Mathematics Anxiety in the
Context of Online Learning Environments. 11. A Face-to-Face Program of
Support for Students in a Hybrid Online Developmental Mathematics Course.
12. A Practical Guide to Discussions in Online Mathematics Courses. Part
III. Using Technology. 13. Cognitive Load Theory and Mathematics
Instruction through MOOCs. 14. Technological Pedagogical Content Knowledge
for Meaningful Learning and Instrumental Orchestrations: A Case Study of a
Cross Product Exploration using CalcPlot3D. 15. Enhancement of Mathematics
Learning through Novel Online Tools. 16. Making Online Mathematics Method
Courses Interactive and Effective with OER. 17. Developing Interactive
Demonstrations for the Online Mathematics Classroom: Interactive Diagrams.
Part IV. Teacher Education. 18. MOOCs for mathematics teacher education:
new environments for professional development. 19. Online Mathematics
"Self-Help Kiosks" to Support Pre-Service Teachers. Part V. Commentary. 20.
Online mathematics education, the good, the bad, and the general overview