# Degrees, Certificates, &Transfer Programs

Engineering Website | Physical Sciences, Mathematics & Engineering Division

## Engineering 2015-2016

Engineers apply the theories and principles of science and mathematics to practical technical problems. The Engineering major provides a solid foundation in what is normally referred to as the "engineering core" at most colleges and universities. Mathematics, physics, chemistry and introductory engineering courses such as circuit analysis and statics make up the bulk of this core. The major is intended to provide, in most cases, all of the basic subjects necessary for a smooth transfer to the candidate's chosen college or university.

### Program Learning Outcomes:

• Formulate logical problem-solving approaches, generate solutions, and assess the reasonableness of the solutions for engineering type analysis problems.

• Design, construct, and produce creative solutions to engineering problems by applying the engineering design process and identifying pertinent design parameters based on the fundamental physics governing a system.

• Demonstrate understanding of the fundamental knowledge necessary for the practice of, or for advanced study in, engineering, including scientific principles, rigorous analysis, and problem solving.

• Demonstrate clear communication skills, responsible teamwork, professional attitudes and ethics.

• Demonstrate a preparation for the complex work environment and continuous learning.

### Career Opportunities:

Engineering, and in particular, Electrical and Computer Engineering, continues to be an excellent choice for a career. It is the second largest profession, being exceeded only by teaching. Salaries at the entry level begin at about $50,000 and may go as high as $70,000 for particular specializations.

### Units Required

- Major: 68
- Certificate(s): 23-25

### Degree Requirements:

• English proficiency: ENGL 1A, 1AH, 1S & 1T, ESLL 26 or equivalent.

• Mathematics proficiency: MATH 57, 105, 108 or equivalent.

A minimum of 90 units is required* to include:

• Completion of one of the following general education patterns: Foothill General Education, CSU General Education Breadth Requirements or the Intersegmental General Education Transfer Curriculum (IGETC)

• Core courses (53 units)

• Support courses (15 units)

*Additional elective course work may be necessary to meet the 90-unit minimum requirement for the associate degree.

**NOTE:** All courses pertaining to the major must be taken for a letter grade. In addition, a GPA of 2.0 or higher is required in all core and support courses for the degree or certificates.

CP = Certificate of Proficiency [Non-Transcriptable].

#### Additional Information:

**Suggested Preparation Courses:**

• **MATH 48C** or equivalent;

• **CHEM 25** or equivalent;

• **PHYS 6, 2A** or equivalent.

**NOTE**: Students should check with the transfer institution for any additional required courses.

#### Core Courses (53 units)

CHEM 1A General Chemistry (5 units)

CHEM 1B General Chemistry (5 units)

ENGR 10 Introduction to Engineering (5 units)

MATH 1B Calculus (5 units)

MATH 1C Calculus (5 units)

MATH 1D Calculus (5 units)

MATH 2A Differential Equations (5 units)

PHYS 4A General Physics (Calculus) (6 units)

PHYS 4B General Physics (Calculus) (6 units)

PHYS 4C General Physics (Calculus) (6 units)

#### Support Courses (15 units)

C S 1A Object-Oriented Programming Methodologies in Java (5 units)

**or** C S 1AH Honors Object-Oriented Programming Methodologies in Java (5 units)

C S 2A Object-Oriented Programming Methodologies in C++ (5 units)

**or** C S 2AH Honors Object-Oriented Programming Methodologies in C++ (5 units)

ENGR 6 Engineering Graphics (4 units)

ENGR 11 Programming & Problem-Solving in MATLAB (5 units)

ENGR 12 Computer Architecture & Organization (5 units)

ENGR 35 Statics (5 units)

ENGR 37 Introduction to Circuit Analysis (5 units)

ENGR 45 Properties of Materials (5 units)

ENGR 62A Introduction to 3-D Printing & Rapid Prototype Design (4 units)

ENGR 62B 3D Printing: Basic Model Making (5 units)

ENGR 62C 3D Printing: Advanced Model Making (5 units)

ENGR 62D 3D Rapid Model Making & Prototype Development (5 units)

ENGR 83A Introduction to Biomedical Engineering (5 units)

ENGR 83B Design & Manufacturing in the Biomedical Engineering Field (5 units)

ENGR 83C Introduction to Medical Device Regulations (5 units)

ENGR 83E Introduction to Documentation (5 units)

MATH 2B Linear Algebra (5 units)

NANO 10 Introduction to Nanotechnology (5 units)

PHYS 4D General Physics (Calculus) (6 units)

### Certificate Requirements

#### Certificate of Proficiency in Biomedical Devices

Units: 25 [Non-Transcriptable]

ENGR 83A Introduction to Biomedical Engineering (5 units)

ENGR 83B Design & Manufacting in the biomedical Engineering Field (5 units)

ENGR 83C Introduction to Medical Device Regulations (5 units)

ENGR 83D Introduction to Quality Assurance (5 units)

ENGR 83E Introduction to Documentation (5 units)

#### Certificate of Proficiency in Rapid Prototyping (23 Units) [Non-Transcriptable]

ENGR 6 Engineering Graphics (4 units)

ENGR 62A Introduction to 3D Printing & Rapid Prototype Design (4 units)

ENGR 62B 3D Printing: Basic Model Making (5 units)

ENGR 62C 3D Printing: Advanced Model Making (5 units)

ENGR 62D 3D Rapid Model Making & Prototype Development (5 units)

**Control Information:**

2015-2016 |
Status: Approved |
Modified: 2015-04-02 09:00:29 |
Dept Code: ENGR