Graduates from our mathematics program make an immediate impact in a variety of careers. Our alumni are working as actuaries, computer programmers, engineers, hospital administrators, and secondary teachers.
For those choosing to continue their education, the choices are just as varied. Recent graduate school opportunities for our mathematics majors include:
Ben Dill - Mathematics with a Concentration in Physics
In this paper, we seek to understand some basic principles of coding theory. Specifically, we define and explore binary codes, Hamming codes, and a special application of coding theory known as the McEliece cryptosystem. We describe the meaning and usage of generator matrices and parity check matrices and present bounds on the number of code words in codes of a given minimum distance and length. We present and prove several known results about Hamming codes, including the fact that they are necessarily perfect codes. We show how to construct a cryptosystem using any linear code and discuss the strength of the McEliece cryptosystem in a future where quantum computers are a reality. Finally, we present one program which automatically decodes strings encoded with a Hamming code and another which encrypts and decrypts messages using the McEliece cryptosystem.
Scott Harmon - Mathematics with a Concentration in Engineering
Rail guns promise to make space travel and weapons systems much more efficient for the future. I conducted a project to skim the surface of rail gun physics and design. I first started by constructing a small rail gun as a proof-of concept. I then delved deeper into the physics of operation by measuring and modeling the magnetic field associated with the operation of the device.
The model rail gun had all of the basic components of much larger, more complicated devices. It consisted of a pair of rails, a bank of powerful capacitors, a charging circuit, and an AC power source. When the capacitors were charged to 60 volts, I estimated the force on the projectile to be 9.12×10^(-6) Newtons. Unfortunately, this was not enough force to overcome friction forces as well as tertiary "welding" of the projectile to the rails.
In order to understand the basic physics principles behind the operation of the rail gun, I measured the magnetic field produced by the rails. The field produced by a single rail was very non-uniform, revealing weaknesses in my initial rail design. I then conducted the same experiment, but with a
solid wire. This produced the expected magnetic field, which was relatively small on the ends, with the maximum in the center of the length of wire. This taught me that a solid wire produces a desirable magnetic field, rather than my initial design that had many air-filled voids within the rails.
With the knowledge gleaned from this immersion into rail gun physics, I will be able to better design similar devices in the future with a greater understanding of magnetic field production.
Brittany Harris - Mathematics with a Concentration in Biology
Epidemiologists and biostatisticians depend on high-quality statistical analysis to determine correlative and predictive information relating to health states. Due to the nature of public health data collection, many data sets include missing data points and sparse information. This issue has created an emerging interest in the use of Bayesian statistics for its ability to incorporate prior studies and expert belief into the analysis. It is difficult, however, to access the relative accuracy of Bayesian methods to traditional, or "frequentist", methods. This study examines both Bayesian and frequentist methods in general and analyses deaths in vehicle collisions in Montana between 2004 and 2009 using each method.
Two specific questions of correlation will be addressed:
The results will compare predictive Bayesian and frequentist estimates for earlier years, 2004-2008, with each other and with actual vehicle death occurrences in 2009.
Ian Lyon-Mathematics with a Concentration in Engineering
Small nanosatellites (1 to 10 kg), with their low production costs and unique mission strategy possibilities, can be inexpensively deployed in groups to maximize scientific returns. The Space Science and Engineering Laboratory (Montana State University) has demonstrated this with their FIRE BIRD satellites, a two-satellite system set to observe relativistic electron bursts in the Earth's magnetosphere. FIRE BIRD separation strategy scenarios that use differential drag to influence relative satellite velocities are studied here. Relevant orbital mechanics concepts are discussed, and equations of motion are derived and incorporated into an orbital simulation model written in MATLAB.
It is found that a springless separation strategy utilizing differential drag induced by differing satellite masses creates a near-constant acceleration throughout the FIRE BIRD mission duration. This method is found to be a feasible alternative to the traditional springed-separation strategy. At an altitude of 700 km, a mass difference of five grams will separate the FIRE BIRD satellites to a maximum allowed relative distance of 100 km in roughly a year, plus or minus eight months.
Additional physics concepts which could improve the accuracy of the model are also discussed.
Amber Nuxoll - Mathematics with a Concentration in Business
The flow of vehicles through an auto parts and repair business, Hometown Auto & Ag, was modeled using SIMPROCES software. 100 replications of a week of business were used to analyze the amount of time customers waited for a mechanic to begin repair on their vehicles. These results were used to provide insight on whether or not the addition of another mechanic would significantly improve these waiting times. This model showed that the addition of another mechanic would reduce waiting times for resources and would most likely be beneficial to the business, especially if business was likely to increase. The sensitivity of the results to certain parts of the model, like the percentages representing the probability of the occurrence of certain types of repairs and the distributions used to represent repair times, was also analyzed. The results were particularly sensitive to both the percentages and distributions. This indicated a need for further study of the frequency of the types of repairs and the nature of the probability distributions that would most accurately portray repair times.
Sam Schaefer - Mathematics with a Concentration in Physics
This thesis examines multiple aspects of sports betting within the NFL. The purpose of this thesis is to determine whether or not a statistical advantage existed between general betting trends and whether or not these trends yielded favorable outcomes in the long run. In this thesis all of the NFL games from the 2009 season are placed into three ranges according to their corresponding point spreads. This thesis then uses a binomial test to check whether advantages exist by betting on the favorite or underdog. Money-line bets are also examined and the competitiveness of these games is based on the previously created point spread ranges. Within these money-line bets this thesis tests for statistical advantages by betting on either the favorite or the underdog from one point spread range to another. It also tests whether or not any of these bets would prove to be beneficial in the long run. In addition, this thesis examines the probabilities of coming out even by making a select few bets in a particular range. From these tests the results show that there was very little difference from one betting trend to another, and that most of them resulted in a net loss. Therefore, the results suggest that in order to turn a profit gambling, more sophisticated trends must be used as well as focusing time and attention on the less obvious aspects of sports betting.
By Eddie Gregg, Helena IR
John Chart and Ryan Swenson are perfect examples of the people honored each year by the Helena Education Foundation during the organization’s Celebration of Excellence banquet. Chart has been teaching math for 25 years, 17 of them at Capital High. Swenson, his former student, just graduated from Carroll College Saturday and will begin a career teaching math this fall in Rigby, Idaho.
They were both honored by the Helena Education Foundation in 2009, and Chart is being honored again this year as a Distinguished Educator.
Each year the Helena Education Foundation honors a small group of graduating seniors for their academic achievements and civic engagement, naming them Distinguished Scholars. Each student then names an educator who has been a particularly positive influence on his or her life and then that educator is also honored by HEF. The organization also honors a group of graduates as Distinguished Achievers; they are nominated by their teachers, who are also honored during the banquet, for various academic or extracurricular achievements or for overcoming obstacles as students. Read more of this story
At Carroll, our Mathematics major focuses on the skills you need to succeed at the next level.
Our emphasis on real-world problems, through group and independent projects, and the effective communication of results helps our graduates when looking for graduate school opportunities and jobs.
One of Carroll's requirements to graduate with Honors is the writing and presentation of a thesis during the student's senior year. Within the Mathematics, Engineering, and Computer Science Department, students have the opportunity to work with faculty of varied backgrounds and interests. At right are thesis abstracts of our 2011 Honors graduates.