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  1. Confidence Intervals Tutorial

    19 Nov 2015 | Teaching & Reference Material | Contributor(s): Claudia Neuhauser, David Phillip Schladt

    This resource has been updated - find the current version here: https://qubeshub.org/qubesresources/publications/754This Excel mini-tutorial introduces the calculation and application of confidence intervals.

  2. Course materials for computational genomics using R

    19 Nov 2015 | Teaching & Reference Material | Contributor(s): Hong Qin

    This resource has been updated - find the current version here: https://qubeshub.org/qubesresources/publications/907The R code and data are deposited at Github: https://github.com/hongqin/RCompBio 

  3. Course materials for computational genomics using R

    19 Nov 2015 | Teaching & Reference Material | Contributor(s): Hong Qin

    This resource has been updated - find the current version here: https://qubeshub.org/qubesresources/publications/907The R code and data are deposited at Github: https://github.com/hongqin/RCompBio 

  4. An Introduction to ESTEEM

    04 Nov 2015 | Teaching & Reference Material | Contributor(s): Biological Esteem

    This presentation introduces the philosophy, structure, and scope of the ESTEEM project, including terms for use. Three pedagogical approaches to integrating math and biology in the classroom, differing in how closely students interact with the underlying mathematical model, are illustrated with...

  5. Understanding the Quantitative and Computational Skills of Incoming Biology Students

    27 Oct 2015 | Teaching & Reference Material | Contributor(s): Charles Umbanhowar Jr, Jason M Belitsky, P. Brodfuehrer, Gregory Davis, T. Haque, L. Lee, C. McFadden, Paul Overvoorde, M. Preest, Liz Stanhope, M. Vinces, Andrew Zieffler, Laura Ziegler

    This resource has been updated - find the current version here: https://qubeshub.org/publications/244Insufficient mathematical preparation has been linked to the failure of incoming students to persist in STEM-related majors.  In addition, recent advances in computation allow biologists...

  6. Understanding the Quantitative and Computational Skills of Incoming Biology Students

    27 Oct 2015 | Teaching & Reference Material | Contributor(s): Charles Umbanhowar Jr, Jason M Belitsky, P. Brodfuehrer, Gregory Davis, T. Haque, L. Lee, C. McFadden, Paul Overvoorde, M. Preest, Liz Stanhope, M. Vinces, Andrew Zieffler, Laura Ziegler

    This resource has been updated - find the current version here: https://qubeshub.org/publications/244Insufficient mathematical preparation has been linked to the failure of incoming students to persist in STEM-related majors.  In addition, recent advances in computation allow biologists...

  7. QUBES News, Highlights, and the Grand Opening of QUBESHub.org

    27 Oct 2015 | Teaching & Reference Material | Contributor(s): Drew LaMar, Carrie Diaz Eaton, Alison N Hale, DorothyBelle Poli, Bob Sheehy

    This resource has been updated - find the current version here: https://qubeshub.org/publications/216The mission of the Quantitative Undergraduate Biology Education and Synthesis (QUBES) project is to improve learning opportunities for all students enrolled in undergraduate biology courses...

  8. Integrating student research projects into mathematical biology courses

    21 Oct 2015 | Teaching & Reference Material | Contributor(s): Elissa Schwartz

    This resource has been updated - find the current version here: https://qubeshub.org/publications/256Interdisciplinary mathematical biology courses have particular challenges. Specific teaching methods are necessary in order to engage students with varying levels of competency in mathematics...

  9. Mentoring Undergraduate Research Projects in Mathematical Biology

    21 Oct 2015 | Teaching & Reference Material | Contributor(s): Timothy Comar

    This resource has been updated - find the current version here: https://qubeshub.org/publications/255For several years, we have been mentoring undergraduate research projects in the areas of the dynamics of impulsive differential equation models for pest management and epidemiology and the...

  10. Modernizing Statistics Education via Biology Applications

    21 Oct 2015 | Teaching & Reference Material | Contributor(s): Olcay Akman

    This resource has been updated - find the current version here: https://qubeshub.org/publications/254In most traditional statistics courses, instructors use data from different fields in an effort to give the courses an interdisciplinary flavor. They generally fail because these attempts...

  11. IQS 2.0: A Modularized Integrated Math and Science Course

    21 Oct 2015 | Teaching & Reference Material | Contributor(s): Lester Caudill

    This resource has been updated - find the current version here: https://qubeshub.org/publications/252For the past several years, the University of Richmond has offered an Integrated Quantitative Science (IQS) course, integrating introductory courses in five math and science disciplines, to...

  12. Using Online Materials/Videos to Enrich Linear Algebra for Scientists

    21 Oct 2015 | Teaching & Reference Material | Contributor(s): Sarah Hews

    This resource has been updated - find the current version here: https://qubeshub.org/publications/250Linear algebra is an important course for biology majors but it is usually designed for math majors (emphasizing proofs) or engineers (focusing more on matrix algebra and algorithms)....

  13. Modelling and simulation: helping students acquire this skill using a Stock and Flow approach with MathBench

    20 Oct 2015 | Teaching & Reference Material | Contributor(s): Istvan Karsai, Katerina V. Thompson, Kären C. Nelson

    Computational and modelling skills are vital to most fields of biological research, yet traditional biology majors have no or little opportunity to develop these skills during their undergraduate education. We describe an approach, which can address this issue by a synergy of...

  14. SIMIODE - Systemic Initiative for Modeling Investigations and Opportunities with Differential Equations

    20 Oct 2015 | Teaching & Reference Material | Contributor(s): Brian Winkel

    SIMIODE - Systemic Initiative for Modeling Investigations and Opportunities with Differential Equations  is about teaching differential equations using modeling and technology upfront and throughout the learning process. You can learn more at our dynamic website, www.simiode.org, where we...

  15. SIMIODE - Systemic Initiative for Modeling Investigations and Opportunities with Differential Equations

    20 Oct 2015 | Teaching & Reference Material | Contributor(s): Brian Winkel

    SIMIODE - Systemic Initiative for Modeling Investigations and Opportunities with Differential Equations  is about teaching differential equations using modeling and technology upfront and throughout the learning process. You can learn more at our dynamic website, www.simiode.org, where we...

  16. PLANT Talking Points: Crime Scene Botanicals - Forensic Botany...

    10 Oct 2015 | Teaching & Reference Material

    This resource has been updated - find the current version here: https://qubeshub.org/qubesresources/publications/817Provides information on the interesting job of Forensic Botany using real life examples

  17. PLANT Talking Points: Popcorn, endosperm and the foods we eat...

    05 Oct 2015 | Teaching & Reference Material

    This resource has been updated - find the current version here: https://qubeshub.org/qubesresources/publications/818This resource connects botany to everyday life by way of explaining what common foods we eat really are.

  18. Allele and Phenotype Frequencies in Rock Pocket Mouse Populations

    03 Oct 2015 | Teaching & Reference Material | Contributor(s): Dr. Michael Nachman

    This resource has been updated - find the current version here: https://qubeshub.org/publications/340Lesson plan for teaching Hardy-Weinberg principle using real data collected by Dr. Michael Nachman and his colleagues.

  19. Population Genetics: When Darwin Met Mendel - Crash Course Biology

    03 Oct 2015 | Teaching & Reference Material | Contributor(s): CrashCourse

    This Youtube video talks about population genetics, which helps to explain the evolution of populations over time by combing the principles of Mendel and Darwin, and by means of the Hardy-Weinberg equation, all in an upbeat, modern and somewhat zany manner.

  20. Population Genetics: When Darwin Met Mendel - Crash Course Biology

    03 Oct 2015 | Teaching & Reference Material | Contributor(s): CrashCourse

    This Youtube video talks about population genetics, which helps to explain the evolution of populations over time by combing the principles of Mendel and Darwin, and by means of the Hardy-Weinberg equation, all in an upbeat, modern and somewhat zany manner.