20172018 SLCC General Catalog
Mathematics: AS


Return to: Programs & Areas of Study Associate of Science  63 credits minimum
Mathematics Department
Taylorsville Redwood Campus SI 220
General Information (801) 9574073
Program Information (801) 9574267
Program Website
Academic and Career Advising
Academic Advising SI 201C, (801) 9575046
Program Faculty
Professor  Joseph Gallegos, Carla Kulinsky
Associate Professor  Mark Glines, Carla Kulinsky, Dale Nelson, Zeph Smith, Cindy Soderstrom, Shane Tang , Ruth Trygstad, Brenda Gardner, Alia Maw, Ron McKay, Cesar Melo, Robert Morelli, Brenda Santistevan, Kyle Costello
Assistant Professors  Spencer Bartholomew, Garth Butcher, Charles Hemming, Michael Oremus, Suzanne Mozdy, Laurie Paxton, Deena Bain, Rachel Marcial, Mony Kennedy
Instructor  Kristin Cartwright, John Schweitzer, Sadie Thomas
Program Description
An Associate of Science degree can be earned through the study of Mathematics. It requires a minimum of 63 credit hours of coursework, including 22 hours of mathematics courses and 8 hours of physics courses. All classes are transferable to other schools in the state system of higher education and most other universities and colleges. These courses will prepare a student for completion of a mathematics or mathematics education degree at a four year institution. Students in this program also complete General Education requirements.
Transfer/Articulation Information
Requirements at fouryear colleges and universities are subject to change; ongoing planning is essential. Admission into a major program at a transfer institution depends upon the receiving institution’s requirements for that major. Some major programs are restricted and require special application as well as a competitive GPA. See an Academic Advisor at both SLCC and the intended receiving institution for specific articulation information.
Estimated Time to Completion
If students follow the suggested semester schedule, time to completion is four semesters.
Program Student Learning Outcomes 
Related CollegeWide Student Learning Outcomes 

1  Acquire substantive knowledge
2  Communicate effectively
3  Develop quantitative literacies
4  Think critically & creatively
5  Become a community engaged learner
6  Work in professional & constructive manner
7  Develop computer & information literacy 
1.a. Acquire substantive knowledge of mathematical concepts in calculus, linear algebra, differential equations and calculus based physics.
b. Demonstrate proficiency in the use of a Computer Algebra System for problemsolving and application of mathematical principles.
c. Preparation for further study in mathematics or a related discipline at a fouryear college or university. 
1  Substantive Knowledge 
2.a. Organize, present and explain, both orally and in writing, solutions to mathematics problems.
b. Communicate well in a group. 
2  Communicate Effectively 
3.a. Obtain and interpret information represented by solutions and graphs.
b. Use appropriate mathematical techniques and concepts to analyze data.
c. Model and predict outcomes for physical situations with mathematical equations. 
3  Develop Quantitative Literacy 
4.a. Demonstrate effective problem solving.
b. Critically analyze mathematical problems and solutions for validity/credibility.
c. Make connections across disciplines with mathematical models from physics, engineering, economics, medicine etc. 
4  Think Critically 
