Victor J. Donnay

Professor of Mathematics on the William R. Kenan Jr. Chair
Victor J. Donnay headshot

Contact

Phone 610-526-5352
Website
Location Park 288
On Leave
2024-25

Education

Ph.D., NYU Courant Institute, 1986.

Areas of Focus

Chaotic properties of dynamical systems. Math and science education. Linking mathematics education to issues of sustainability. 

Biography

Video Introduction to Professor Donnay

Research Interests:

My area of research is chaotic properties of dynamical systems. Systems that I am particularly interested include geodesic flow on surfaces and billiards.

 

 

Image of 3D sphere with ergodic geodesic flow

This picture shows an unusual shaped sphere which exists in three dimensional space whose geodesic flow is ergodic.

From the article by Keith Burns and Victor Donnay, Embedded surfaces with ergodic geodesic flow, Inter. J. of Bifurcation and Chaos Vol. 7, No. 7 (1997), 1509-1527.

More such pictures.  

List of publications.

Educational Interests:

Together with my students, I have worked to develop ways to bring mathematics to a wider audience in interesting and understandable ways.

In my teaching, I have been working at making connections between mathematics and issues of Civic Engagement as I describe in the article Differential Equations and Civic Engagement. My differential equations (see Ordinary Differential Equations in Real World Situations) was seleced as a 2008 SENCER  Model Course.

In spring 2010, I taught a math seminar on Math Modeling and Sustainability in which students did service learning projects in which they used mathematics to analysize problems on sustainability on campus and in the community.

In spring 2012, as part of ºÚÁÏÉçÇø's new 360 program, I was part of a three faculty member team that will examine issues of sustainability from a variety of perspectives. I taught a course on Math and Sustainability, Carola Hein, from the Cities program, taught on Urban Design and Sustainability, and Jody Cohen, from the Education program, taught on Sustainability Education.

After many years of dreaming about it, in April 2016,  I hosted a public event to create the World's Largest Sierpinksi Triangle out of K'NEX pieces at the Wagner Free Institute of Science.

K-12 Math and Science Education:

I have been involved in a number of NSF funded projects to improve math and science education as well as teaching a course called Changing Pedagogies in Math and Science Education.

Principal Investigator of the ºÚÁÏÉçÇø - Haverford Noyce Program, which aims to encourage math and majors to go into teaching, particularly in high-needs school districts. To support STEM majors at liberal arts institutions to go into teaching, we have developed a summer program in math pedagogy at Brown.

Principal Investigator of the Philadelphia Regional Noyce Partnership in which the seven institutions in the region with Noyce programs (ºÚÁÏÉçÇø - Haverford, Drexel, La Salle, Penn, Saint Joseph's, and Temple) will exploit synergies to develop joint programming to support the Noyce scholars in the Philadelphia region.

Co-Principal Investigator for a NSF funded START planing grant which aimed to support teachers and school districts in teaching (environmental) sustainability to their students.

Co-Principal Investigator for the Math Science Partnership of Greater Philadelphia (MSPG), which received a $12.5 million dollar grant from the National Science Foundation to improve pre-college math and science education.  ºÚÁÏÉçÇø and Haverford Colleges are core partners in the MSPGP.  I am a Board Member of the organization 21st Century Partnership for STEM Education (21PSTEM), which is a non-profit successor to the MSPGP that was founded in 2007.

Sustainability:

I am chair of the college's Sustainability Leadership Group. Information about Sustainability at ºÚÁÏÉçÇø can be found here. We sponsored a celebration of the college's achievements in sustainability in January 2013.

In 2013, I was the Chair of the national Advisory Committee for Mathematics Awareness Month - the Mathematics of Sustainability. We created a beautiful poster about sustainability, collected short essays describing how mathematics get used in sustainability and teaching units incorporating sustainability topics into math courses.

Environmental Studies:

Starting in fall 2013, I became the Director of ºÚÁÏÉçÇø's Environmental Studies program.

Teaching:

Spring 2018

Fall 2017: 

Spring 2017:

Fall 2016:

Spring 2016:

Spring 2015:

  • Math 210: Differential Equations with Applications
  • Math 399: Senior Conference: Math Modeling and Sustainability.

Fall 2014:

Spring 2014:

Fall 2013:

Spring 2013:

  • Math 295: Topics in Mathematics - Mathematical Modeling.
  • Math 399.01: Senior Conference - Dynamical Systems and Chaos Theory.

Fall 2012:

  • Math 210: Differential Equations with Applications
  • Math 398.01: Senior Conference - Math Modeling and Environmental Sustainability.

Spring 2012:

  • 360: Perspectives on Sustainability
  •  Math 151 Introduction to Math and Sustainability.

Fall 2011:

Spring 2011:

  • Math 210: Differential Equations with Applications, ºÚÁÏÉçÇø
  • Math 44: Differential Equations, Swarthmore

Spring 2010:

  • Math 302: Real Analysis II
  • Math 398: Senior Conference - Math Modeling and the Environment.

Fall 2009:  Math 301: Real Analysis I

Spring 2009:

Fall 2008:

Spring 2008:     

Spring 2007:     

  • Math 210 Differential Equations with Applications
  • Math 398: Senior Conference – Math Modeling and the Environment.

Previous Courses taught.

Faculty Study Groups:

Organizer of the Tri-Co Mellon group on Math Modeling in 2011-12.