Engineering - Full: APE (CTE)

Associate of Pre-Engineering | 80-86 credits

Program Website
Academic Advising

Program Description
Engineering – Full combines the full complement of General Education courses with the courses necessary to achieve major status at USHE transfer institutions in Chemical, Civil/Environmental, Computer, Electrical, Geological, Materials Science, Mechanical, Metallurgical, or Mining Engineering.

Transfer/Articulation Information
Please refer to the Student Resources section of the SLCC University Transfer webpage.

Estimated Cost for Students
Tuition and student fees: http://www.slcc.edu/student/financial/tuition-fees.aspx
Course fees: $95

Note: Fees vary based upon specific registration and are subject to changes.

General Education Requirements

Complete all General Education courses. Refer to Notes for program specific requirements and recommendations.

Associate of Pre-Engineering (APE) Degree General Education Requirements

Program General Education Notes

REQUIRED:

Composition (EN): Composition (EN)
Note: ENGL 2100 is required at certain transfer institutions students should consult with an advisor

Quantitative Studies (QS): MATH 1210

American Institutions (AI): American Institutions (AI)

Communication (CM): Communication (CM)

International & Global (IG): International & Global (IG)

Lifelong Wellness (LW): Lifelong Wellness (LW)

Distribution Areas: Choose one course from each of the following Distribution Areas, four courses total, one course must also be designated as DIVERSITY (DV):
Fine Arts (FA) , Humanities (HU) , Life Sciences (LS) , Social Science (SS)
Note: Physical Sciences (PS) is satisfied through major coursework.

RECOMMENDED:

Fine Arts (FA): FA 1080

Life Sciences (LS): BIOL 1610/1615

Social Sciences (SS): ECON 2010

Program Requirements

Required Courses (18 credits)

ENGR 1010 - Engineering Math Techniques
MATH 1220 - Calculus II
MATH 2210 - Multivariate Calculus
MATH 2250 - Differential Eq/Linear Algebra
PHYS 2210 - Physics for Science & Engineering I
While not required, it is recommended that all students take:
ENGR 2950 - Engineering Forum

Elective Courses (31-36 credits)

Select one of the Engineering Options

Chemical Engineering Option

CHE 1040 - Engineering Problem Solving with Python, Excel and VBA
CHE 2450 - Numerical Methods with Python
CHE 2800 - Fundamentals of Process Engineering
CHEM 1210 - General Chemistry I
CHEM 1215 - General Chemistry Lab I
CHEM 1220 - General Chemistry II
CHEM 1225 - General Chemistry Lab II
CHEM 2310 - Organic Chemistry I
CHEM 2315 - Organic Chemistry Lab I
ENGR 2300 - Engineering Thermodynamics
ENGR 2550 - Applied Probability & Statistics for Engineers
PHYS 2215 - Physics for Sci & Eng Lab I
PHYS 2220 - Physics for Science & Engineering II
PHYS 2225 - Physics for Sci & Eng Lab II
These additional courses are not required but are suggested and are accepted at the University of Utah as program electives in the BS Chemical Engineering program. (The University of Utah is the only USHE institution with a BS Chemical Engineering program.)
CHEM 2320 - Organic Chemistry II
CHEM 2325 - Organic Chemistry Lab II
BIOL 2020 - Cell Biology
BIOL 2025 - Cell Biology Lab
ENGR 2000 - Cooperative Education

Civil/Environmental Engineering Option

ARCH 1310 - Intro. to AutoCAD
CEEN 1100 - Introduction to Civil and Environmental Engineering Design
CEEN 2240 - Surveying for Civil Engineers
CEEN 2750 - Computational Methods for Civil Engineers
ENGR 2010 - Statics
ENGR 2030 - Dynamics
ENGR 2140 - Strength of Materials
ENGR 2320 - Engineering Economics
ENGR 2550 - Applied Probability & Statistics for Engineers
CHEM 1210 - General Chemistry I
CHEM 1215 - General Chemistry Lab I
CHEM 1220 - General Chemistry II or
PHYS 2220 - Physics for Science & Engineering II
CHEM 1225 - General Chemistry Lab II or
PHYS 2215 - Physics for Sci & Eng Lab I or
PHYS 2225 - Physics for Sci & Eng Lab II
ENGR 2000 - Cooperative Education
Students transferring to Weber State University, Utah State University, or Utah Valley University are also encouraged to take:
ENGR 2300 - Engineering Thermodynamics
MSE 2160 - Elements of Material Science
or
MSE 2010 - Introduction to Materials Science Engineering
CEEN 2900 - Special Topics in Civil/Environmental Engineering

Computer Engineering Option

Electrical Engineering Option

Geological Engineering Option

Materials Science Engineering Option

Mechanical Engineering Option

ENGR 1030 - MATLAB Problem Solving
ENGR 1035 - MATLAB Problem Solving Lab
ENGR 2010 - Statics
ENGR 2030 - Dynamics
ENGR 2300 - Engineering Thermodynamics
ENGR 2450 - Numerical Methods
MSE 2160 - Elements of Material Science
EE 2210 - Electrical Engineering for Non-Majors
MEEN 1000 - Introduction to Design in Engineering Systems
MEEN 1005 - Introduction to Design in Engineering Systems Lab
CHEM 1210 - General Chemistry I
CHEM 1215 - General Chemistry Lab I
PHYS 2220 - Physics for Science & Engineering II
Choose one of the following courses:
ENGR 2550 - Applied Probability & Statistics for Engineers
MEEN 2650 - Manufacturing Engineering & Technology
ENGR 2000 - Cooperative Education
Students transferring to Weber State, Utah State or Utah Valley University are also encouraged to take
ENGR 2140 - Strength of Materials
MEEN 2900 - Special Topics in Mechanical Engineering

Metallurgical Engineering Option

Mining Engineering Option

Time to Completion & Graduation Map

Engineering Full - Chemical Engineering Option APE: Full-time
Engineering Full - Civil and Environmental Engineering Option APE: Full-time
Engineering Full - Computer Engineering Option APE: Full-time
Engineering Full - Electrical Engineering Option APE: Full-time
Engineering Full - Geological Engineering Option APE: Full-time
Engineering Full - Materials Science Engineering Option APE: Full-time
Engineering Full - Metallurgical Engineering Option APE: Full-time
Engineering Full - Mechanical Engineering Option APE: Full-time
Engineering Full - Mining Engineering Option APE: Full-time
Time to completion is 6 semesters based on a full-time minimum of 15 credits per semester. Less than 15 credits per semester will increase time to completion.

Program Learning Outcomes

Program learning outcome alignment with Student Learning Outcomes in brackets.

Be prepared for further study in Engineering or a related discipline at a four-year college or university by completing a course of study comparable to that required in the first 2 years at Utah’s 4-year universities. [1]
Demonstrate an understanding of the fundamentals of physical science, particularly in inorganic chemistry and physics. [1]
Demonstrate competence in both creating and interpreting engineering drawings, using modern computer tools and resources. [2,8,9]
Demonstrate an understanding of the mathematical tools necessary to perform engineering calculations – particularly in Vector Calculus, Linear Algebra and Differential Equations. Use these mathematical tools and strategies to solve engineering problems. [3]
Solve complex problems in engineering and science using critical thinking skills and an effective problem-solving strategy. [4]
Demonstrate the laboratory skills necessary to design and perform scientific and engineering experiments. Interpret experimental data. [3,4]
Demonstrate an understanding of the environmental and social impact of engineering activities and the techniques required to mitigate those impacts. [6]
Demonstrate an understanding of the ethical impacts of engineering decisions and the requirements for ethical behavior of an engineering professional. [7]
Develop engineering computing skills and use them to solve problems. [9]
Demonstrate competence in technical report writing, other written communication and in oral communication of technical concepts. [2]