ME Engineering – Civil Engineering and Engineering Mechanics Accelerated Master’s Program
Through the new 3+2 Engineering – Civil Engineering and Engineering Mechanics Accelerated Master’s Program in the Department of Civil Engineering and Engineering Mechanics (CEEM) at the University of Arizona, you can leverage your undergraduate work in Civil Engineering into a graduate degree through the investment of one additional year of coursework.
|Full-time Duration:||1 year|
|Starting in:||August, January|
|Tuition Fee:||$10,063 per semester|
|Location:||Tucson, United States|
During a student’s senior year a student may take several technical electives at the graduate level.
After completing the Engineering – Civil Engineering and Engineering Mechanics Accelerated Master’s Program from University of Arizona with the associated graduate requirements, the student will receive credit toward their undergraduate degree and a Master’s degree.
The AMP offers flexibility: by focusing your graduate classes in one area, you can obtain your M.E. degree in the following sub-disciplines: Geotechnical, Hydraulics/Hydrology, Engineering Mechanics, Structures or Transportation.
You may elect to pursue an emphasis in Engineering Management in the coursework option or include Engineering Management courses in other options in coordination with your adviser.
“Choosing the Master’s program for Physiological Sciences at the University of Arizona was one of the best decisions I could have made in my education. Our department is warm and collaborative, offering an array of research topics and techniques underneath a vast and integrative umbrella of physiology. Beyond my research experience, I was presented with teaching opportunities, which I feel honed my skill of scientific communication. Having the dynamic research/teaching/class schedule not only kept me active but helped me reinforce material in multiple contexts. Overall, this program was exactly what I wanted in my segway into the medical sciences… and with my teaching assistantship paying for my tuition, how could I say no?”
Andrew Wojtanowski // MS 2016
- Subsurface Fluid Dynamics
- Numerical Methods in Subsurface Hydrology
- Probability in Civil Engineering
- Research Methods and Data Analysis in Civil Engineering
- Open-Channel Flow
- Sediment Transport Analysis