Bridget Phillips

As one of the University of Utah College of Science's Ambassadors, sophomore Bridget Phillips regularly appears at College events hosting alumni and special guests, and working with faculty and staff to promote science teaching and research at the The University of Utah.

A team member in the Shapiro Lab, she works studying the genetic causes and patterns of variation in the axial skeleton of domestic pigeons.

"Because axial skeleton structure is highly conserved," she says, "understanding skeletal development in pigeons can tell us about the processes that control skeletal development in other animals as well."

A Salt Lake native, Bridget is the recipient of the Ole Jensen Scholarship this year. Because of the scholarship, she says, "I’ve been able to dedicate much more of my time to [research in the Shapiro Lab]. I greatly appreciate and deeply value the scholarship."

Dr. Jensen (BS'72), co-founder of ClearChoice Dental Implant Centers, established an endowment for undergraduate research at the School just last year. He will be at the Retreat this year to receive the 2019 Distinguished Alumni Award.

Bridget's ambition is to attend graduate school and to continue her research in genetics. "By completing a degree in Biology and a minor in mathematics, I hope to be better equipped to study immunology through genetics and bioinformatics research."

Favorite Thing About the UofU:
"I was able to start in a wonderful lab as a first-year and be able to live in Crocker Science House with other like-minded science folks."

Hero:
Thomas Hunt Morgan, who was able to show that chromosomes have a role in heredity.

Little Known Fact:
"Because all 350 breeds are capable of interbreeding to generate genetic crosses, pigeons provide a unique opportunity to identify specific genes involved in many morphological traits."

2016 Churchill Scholar

Mackenzie SimperSalt Lake City native and senior in mathematics at the University of Utah, has received the prestigious Churchill Scholarship to study at the University of Cambridge in the United Kingdom. Simper becomes one of only 15 students nationally to receive this award and is the first Churchill Scholar for the University of Utah.

“Mackenzie’s receipt of the Churchill Scholarship marks a tremendous milestone for the university. As our first Churchill Scholar, we have no doubt that she will be an excellent representative of our university and state. Mackenzie has forged the path for other U Churchill Scholars to follow,” said the U’s Senior Vice President for Academic Affairs Ruth Watkins.

The Churchill Scholarship, established in 1963 at the request of Sir Winston Churchill, provides undergraduates with outstanding academic achievement in the science, technology, engineering and math fields the opportunity to complete a one-year master’s program at the University of Cambridge. Students go through a rigorous endorsement process in order to apply, but only after their home institution has been vetted with the Winston Churchill Foundation. The University of Utah was recently added to the foundation in spring 2014. The scholarship has been called “the most academically challenging of the U.K. scholarships.”

“The process of applying was intense, but it was very beneficial for me to think about what I want to do in the future. I am also grateful to the people who I met throughout the process and the many opportunities the math department has provided.  I am excited to go to Cambridge and be the U’s first Churchill scholar,” said Simper

Simper initially planned to attend medical school, which prompted her decision to double major in mathematics and biology at Salt Lake Community College. She soon realized, though, that math was a spectacular field with many applications and areas to explore. When she transferred to the University of Utah in fall 2014, she knew that math was the subject she wanted to pursue.

“Math is so much fun. My research has allowed me to work on problems that truly interest me, and has shown me the connections between different areas of math.  Any student who is excited by math should try doing research, because it is a chance to experience math in a completely different way than in the classroom,” said Simper.

Under the direction of Tom Alberts, assistant professor in mathematics at the University of Utah, Simper has worked on two research projects over the past year and half. One focused on the stochastic heat equation on Markov Chains. The second studied the Bak-Sneppen model, a simplified model of evolution that incorporates natural selection and spatial interaction between species. She is currently writing up the results of this second project for publication.

“I’m proud to have called her my student and research collaborator, just as the mathematics department as a whole is proud of her as one of our best students ever,” said Alberts.

Simper continued her research experience this past summer on aNational Science Foundation Research Experience for Undergraduates fellowship, where she did research with Bjorn Sandstede, a professor in applied mathematics at Brown University. Her project focused on dynamical systems with noise, studying them both analytically and numerically. This research was the basis for another publication in progress and was the focus of a presentation she gave to the University of Utah Department of Mathematics.

Sandstede said that Simper’s “intellectual achievements are outstanding; she is passionate about mathematics and is one of the most creative and advanced undergraduate students I have known and worked with during my career.”

Recently, Simper was awarded the Alice T. Schafer Prize for Undergraduate Women in Mathematics, which highlights one outstanding undergraduate woman nationally who demonstrates high quality of performance in advanced mathematics course, a real interest in mathematics and an ability for independent work.

Simper will use the Churchill Scholarship to pursue a Master of Advanced Study in Pure Mathematics at the University of Cambridge starting in the fall.  Don Tucker, professor in math at the University of Utah and mentor to Simper, said, “She will be a credit to our nation both as a scholar and as a person.” Upon completion, Simper plans to come back to the U.S. to complete her doctorate in mathematics.

Simper aspires to become a professor, and hopes through research and teaching to inspire students to realize math is more than just solving equations, it is all around them. Alberts, described Simper as such: “Mackenzie has tremendous faith in the ability of mathematics research to make important contributions to humanity and to improve the lives of others.”