About the Program
This degree program is designed to cover the majority of the first two years of a four-year program leading to the Bachelor's Degree in Mechanical Engineering at CSU, Chico. Major requirements can vary by university and catalog year. Students should consult with a counselor and utilize Assist.org to ensure this is the most efficient pathway for their academic and career goals. While the Bachelor's Degree is usually the minimum needed to practice as a junior engineer, the Associate in Science Degree in Mechanical Engineering will permit an individual to find work in most engineering firms as an engineering aide or assistant. The curriculum includes core math and science courses as well as required lower-division courses in Mechanical Engineering.
Program Requirements
Program Goal: Local
GE Pattern(s): Butte Local, Cal-GETC
Program Code: 44136.00AS
Program Learning Outcome(s):
Upon successful completion of this program, the student will be able to:
Write comprehensive reports to communicate the analysis of mechanical engineering problems.
Solve problems using data gathered in mechanical systems.
Safely use and accurately interpret the output of standard measuring devices used in mechanical engineering.
Use engineering judgment in the solution of mechanical engineering problems by breaking problems down, solving each part, checking each solution and reassembling the problem for a final solution.
Use the tools of Mathematics and Physics to solve engineering problems.
Prerequisite(s): CHEM 11 or CHEM 51 or one year of high school Chemistry; and Intermediate Algebra or equivalent
Unit(s): 5.00
Transfer Status: CSU/UC
Contact Hours:
51.00 hours Lecture
/ 102.00 hours Lab
Out of Class Hours: 102.00
Total Course Hours: 255.00
This course introduces students to the basic principles of chemistry with a quantitative emphasis. Topics include atomic theory, chemical bonding, molecular geometry, chemical reactions, stoichiometry, gases, thermochemistry, intermolecular forces and solutions. This is the first semester of a one-year course in chemistry intended for majors in the natural sciences (chemistry, biochemistry, biology, physics, pre-medicine), mathematics, and engineering. The two-semester sequence of CHEM 1 and CHEM 2 provides the basic chemical background needed for further investigations into our physical environment. Graded only. (C-ID CHEM 110/CHEM 120S).
Unit(s): 3.00
Transfer Status: CSU/UC
Contact Hours:
34.00 hours Lecture
/ 51.00 hours Lab
Out of Class Hours: 68.00
Total Course Hours: 153.00
This is a computer-based engineering graphics course that introduces students to graphical design and problem solving using freehand sketching and a solid modeling application. Topics include sketching and modeling using extrudes, sweeps, and lofts. Additional topics include assemblies development and detail drawing output. Graphics standards including American National Standards Institute (ANSI) Y14.5 and international standards application will be introduced and practiced.
Prerequisite(s): DFT 2
Unit(s): 3.00
Transfer Status: CSU
Contact Hours:
34.00 hours Lecture
/ 51.00 hours Lab
Out of Class Hours: 68.00
Total Course Hours: 153.00
In this computer-based engineering graphics course students who have already completed the learning objectives of DFT-2: Engineering Graphics I will be introduced to the use of a solid modeling application for simulation of parts and assemblies using Finite Element Analysis (FEA) methodology. Students will model parts and assemblies and will test them using simulation and engineering analysis. Topics include static, frequency, thermal, vibration and drop test analysis methods. The use of simulation to generate engineering reports will be introduced and reports will be generated.
Unit(s): 3.00
Transfer Status: CSU/UC
Contact Hours:
34.00 hours Lecture
/ 51.00 hours Lab
Out of Class Hours: 68.00
Total Course Hours: 153.00
The course explores the career branches of engineering including the functions of an engineer in various settings and the industries in which engineers work. Topics will span the life cycle of the engineering professions from education to career including guided exploration of educational pathways, time-management, study-skill development through engineering-skill building activities focused on design and creation of products and ethical practices. The engineering process will be used to develop essential project management skills in the context of being introduced to ubiquitous systems used by engineers such as sensors, pneumatics, hydraulics, AC and DC motor control, simple electrical circuits, machine controllers, programming, and computational tools for testing and analysis. A spreadsheet program and high-level computer language programs are integral parts of the course. (C-ID ENGR 110).
Prerequisite(s): MATH 30 or MATH 30s
Unit(s): 3.00
Transfer Status: CSU/UC
Contact Hours:
34.00 hours Lecture
/ 51.00 hours Lab
Out of Class Hours: 68.00
Total Course Hours: 153.00
This course utilizes the MATLAB environment and commercial electronic spreadsheets to provide students with a working knowledge of computer-based problem-solving methods relevant to science and engineering. It introduces the fundamentals of procedural and object-oriented programming, numerical analysis, and data structures. Examples and assignments in the course are drawn from practical applications in engineering, physics, and mathematics. (C-ID ENGR 220).
Prerequisite(s): MATH 31, PHYS 41
Unit(s): 3.00
Transfer Status: CSU/UC
Contact Hours:
34.00 hours Lecture
/ 51.00 hours Lab
Out of Class Hours: 68.00
Total Course Hours: 153.00
A first course in engineering mechanics: properties of forces, moments, couples and resultants; two- and three-dimensional force systems acting on engineering structures in equilibrium; analysis of trusses, and beams; distributed forces, shear and bending moment diagrams, center of gravity, centroids, friction, and area and mass moments of inertia. Optional additional topics include fluid statics, cables, Mohr's circle and virtual work. (C-ID ENGR 130).
Prerequisite(s): PHYS 41, CHEM 1
Unit(s): 4.00
Transfer Status: CSU/UC
Contact Hours:
51.00 hours Lecture
/ 51.00 hours Lab
Out of Class Hours: 102.00
Total Course Hours: 204.00
This course presents the internal structures and resulting behaviors of materials used in engineering applications, including metals, ceramics, polymers, composites, and semiconductors. The emphasis is upon developing the ability both to select appropriate materials to meet engineering design criteria and to understand the effects of heat, stress, imperfections, and chemical environments upon material properties and performance. Laboratories provide opportunities to directly observe the structures and behaviors discussed in the course, to operate testing equipment, to analyze experimental data, and to prepare reports. (C-ID ENGR 140B).
Prerequisite(s): MATH 30 or MATH 30s
Unit(s): 4.00
Transfer Status: CSU/UC
Contact Hours:
68.00 hours Lecture
Out of Class Hours: 136.00
Total Course Hours: 204.00
This course is the second of a series in differential and integral calculus of a single variable. Topics will include the concept, techniques and applications of integration, infinite sequences and series, as well as polar and parametric equations. Intended for Science, Technology, Engineering & Math Majors. (C-ID MATH 220).
Prerequisite(s): MATH 31
Unit(s): 4.00
Transfer Status: CSU/UC
Contact Hours:
68.00 hours Lecture
Out of Class Hours: 136.00
Total Course Hours: 204.00
Vector valued functions, calculus of functions of more than one variable, partial derivatives, multiple integration, Green???s Theorem, Stokes??? Theorem, divergence theorem. (C-ID MATH 230).
Prerequisite(s): MATH 31
Unit(s): 4.00
Transfer Status: CSU/UC
Contact Hours:
68.00 hours Lecture
Out of Class Hours: 136.00
Total Course Hours: 204.00
The course is an introduction to ordinary differential equations including both quantitative and qualitative methods as well as applications from a variety of disciplines. Introduces the theoretical aspects of differential equations, including establishing when solution(s) exist, and techniques for obtaining solutions, including, series solutions, and singular points, Laplace transforms and linear systems. (C-ID MATH 240).
Prerequisite(s): MATH 30 or MATH 30s
Unit(s): 4.00
Transfer Status: CSU/UC
Contact Hours:
25.50 hours Lecture
/ 51.00 hours Lab
Out of Class Hours: 76.50
Total Course Hours: 153.00
This course, intended for students majoring in physical sciences and engineering, is part of a three-semester course whose contents may be offered in other sequences or combinations. Core topics include an introduction to kinematics, dynamics, work and energy, momentum, gravitation and simple harmonic motion. Graded only. (C-ID PHYS 205/PHYS 100S).
Prerequisite(s): PHYS 41, MATH 31
Unit(s): 4.00
Transfer Status: CSU/UC
Contact Hours:
25.50 hours Lecture
/ 51.00 hours Lab
Out of Class Hours: 76.50
Total Course Hours: 153.00
This course, intended for students majoring in physical sciences and engineering, is part of a three-semester course whose contents may be offered in other sequences or combinations. Core topics include electrostatics, magnetism, DC and AC circuits, and Maxwell's equations. Graded only. (C-ID PHYS 210/PHYS 200S).
Prerequisite(s): MATH 20 and MATH 26 or MATH 20 and MATH 26s, MATH 28 or MATH 28s, or college-level Pre-calculus or equivalent
Unit(s): 5.00
Transfer Status: CSU/UC
Contact Hours:
85.00 hours Lecture
Out of Class Hours: 170.00
Total Course Hours: 255.00
A first course in differential and integral calculus of a single variable: functions, limits and continuity, techniques and applications of differentiation and integration, Fundamental Theorem of Calculus. Primarily for Science, Technology, Engineering & Math Majors. (C-ID MATH 210).
Prerequisite(s): MATH 20 and MATH 26 or MATH 20 and MATH 26s, MATH 28 or MATH 28s, or college-level Pre-calculus or equivalent
Unit(s): 5.00
Transfer Status: CSU/UC
Contact Hours:
51.00 hours Lecture
Out of Class Hours: 136.00
Total Course Hours: 187.00
A first course in differential and integral calculus of a single variable: functions, limits and continuity, techniques and applications of differentiation and integration, Fundamental Theorem of Calculus. Primarily for Science, Technology, Engineering & Math Majors. This course will contain the same curriculum as MATH 30 but will also have embedded support to review key pre-calculus concepts. This course emphasizes in-class activities and applications.
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Contacts
Luke Sathrum, Chair
(530) 895-2219
Department Office: AHPS 251
(530) 895-2531
Counseling and Advising:
(530) 895-2378
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