Obstáculos para el Agilismo en el Gobierno

See Pre-Engineering for A.S. Degree

Requirements

Engineering 1

Introduction to Engineering

2 units; 2 hours lecture Credit, degree applicable Transfer CSU, UC

This course is an orientation to the preparation, training, practice, obligations and ethics of the engineering profession, as well as an introduction to the various engineering disciplines. Speakers from various fields present opportunities and challenges in the engineering profession. Academic success strategies related to the study of engineering are emphasized.

Engineering 9

Engineering Mechanics – Statics

3 units; 3 hours lecture

Prerequisite: Physics 1A and Mathematics 191 with a mini- mum grade of C

Credit, degree applicable Transfer CSU, UC

In this course, students will explore resultants and

components of concurrent forces; moments of forces with respect to points and axes; equivalent systems of forces and moments; equilibria of particles and rigid bodies in two and three dimensions; distributed forces; centroids and centers of gravity; analysis of structures; forces in beams; friction moments and products of inertia, and energy methods.

ENGINEERING TECHNOLOGY

A.S. Degree and

Certificates of Achievement

Industry and Technology Division www.elcamino.edu/academics/indtech

The engineering technology program prepares students for transfer to university engineering technology programs and for employment in technical fields. By completing the degree or certificate requirements, students acquire a foundation in the principles of engineering, engineering design, digital electronics, automated manufacturing, and the application of math and science in technical fields. Careers in engineering technology involve high level technical work in the creation, production, utilization, and distribution of industrial materials, products, and processes. Competencies will be assessed regularly in accordance with skill standards established by the National Alliance for Pre-engineering Programs.

Major Requirements

At least 50% of the requirements for the major must be completed at El Camino College.

Engineering Technician Option:

Engineering Technology 10 or 10A and 10B, 12 or 12A and 12B, 14 or 14A and 14B, 16 or 16A and 16B, Machine Tool Technology 101;

three courses from: Engineering Technology 18 or 18A and 18B, Machine Tool Technology 16, Computer Aided Design/Drafting 28, Electronics and Computer Hardware Technology 22, Manufacturing Technology 70, 75 or 75A and 75B, Welding 15

Total Units: 26-28

Engineering Technology Option:

Engineering Technology 10 or 10A and 10B, 12 or 12A and 12B, 14 or 14A and 14B, 16 or 16A and 16B, Chemistry 1A, Mathematics 190, Physics 2A;

two courses from: Computer Information Systems 13, Electronics and Computer Hardware Technology 110, Engineering 1, 9, Engineering Technology 18 or 18A and 18B, Machine Tool Technology 101, Manufacturing Technology 70, 75 or 75A and 75B

Total Units: 30-33

Certificates of Achievement

A Certificate of Achievement will be granted upon completion of all program requirements. At least 50% of the courses for the Certificate of Achievement must be completed at El Camino College.

Engineering Technician:

Engineering Technology 10 or 10A and 10B, 12 or 12A and 12B, 14 or 14A and 14B, 16 or 16A and 16B, Machine Tool Technology 101;

three courses from: Engineering Technology 18 or 18A and 18B, Machine Tool Technology 16, Computer Aided Design/Drafting 28, Electronics and Computer Hardware Technology 22, Manufacturing Technology 70, 75 or 75A and 75B, Welding 15

Total Units: 26-28

Engineering Technology:

Engineering Technology 10 or 10A and 10B, 12 or 12A and 12B, 14 or 14A and 14B, 16 or 16A and 16B, Chemistry 1A, Mathematics 190, Physics 2A;

two courses from: Computer Information Systems 13, Electronics and Computer Hardware Technology 110, Engineering 1, 9, Engineering Technology 18 or 18A and 18B, Machine Tool Technology 101, Manufacturing Technology 70, 75 or 75A and 75B

Total Units: 30-33

For Gainful Employment program information, please visit www.elcamino.edu/academics/indtech/engineeringtech

Courses

Engineering Technology 10

Principles of Engineering Technology

3 units; 2 hours lecture, 4 hours lab Credit, degree applicable

Transfer CSU

In this course, students will explore technology systems and engineering processes to learn how math, science, and technology impact our society. The topics introduced include the design process, communication and

documentation, engineering systems, statics, properties of materials, quality assurance, materials testing, and engineering for reliability.

Engineering Technology 10A

Principles of Engineering Technology I

1.5 units; 1 hour lecture, 2 hours lab Credit, degree applicable

Transfer CSU

This is the first of two courses in which students will explore technology systems and engineering processes to learn how math, science, and technology impact our society. The topics introduced include the design process, communication, documentation, and engineering systems.

Note: The two course sequence Engineering Technology 10A and 10B is the same as Engineering Technology 10.

Engineering Technology 10B

Principles of Engineering Technology II

1.5 units; 1 hour lecture, 2 hours lab

Recommended Preparation: Engineering Technology 10A Credit, degree applicable

Transfer CSU

This is the second of two courses in which students will explore technology systems and engineering processes to learn how math, science, and technology impact our society. The topics introduced include statics, properties of materials, quality assurance, materials testing, and engineering for reliability.

Note: The two course sequence Engineering Technology 10A and 10B is the same as Engineering Technology 10.

Engineering Technology 12

Introduction to Engineering Design

3 units; 2 hours lecture, 4 hours lab Credit, degree applicable

Transfer CSU

In this course, students will gain a basic understanding of the design process used in engineering fields and the application of computer modeling software. Emphasis is placed on the design process, geometric relationships, visualization, technical sketching, modeling, model documentation, assemblies, and production processes.

Engineering Technology 12A

Introduction to Engineering Design I

1.5 units; 1 hour lecture, 2 hours lab Credit, degree applicable

Transfer CSU

This is the first of two courses in which students will gain a basic understanding of the design process used in engineering fields and the application of computer modeling software. Emphasis is placed on the design process, geometric relationships, visualization, and technical sketching.

Note: The two course sequence Engineering Technology 12A and 12B is the same as Engineering Technology 12.

Engineering Technology 12B

Introduction to Engineering Design II

1.5 units; 1 hour lecture, 2 hours lab

Recommended Preparation: Engineering Technology 12A Credit, degree applicable

Transfer CSU

This is the second of two courses in which students will gain a basic understanding of the design process used in engineering fields and the application of computer modeling software. Emphasis is placed on, modeling, model documentation, assemblies, and production processes.

Note: The two course sequence Engineering Technology 12A and 12B is the same as Engineering Technology 12.

Engineering Technology 14

Electronics for Engineering Technologists

3 units; 2 hours lecture, 4 hours lab Credit, degree applicable

Transfer CSU

In this course, students are introduced to the application of electronics in engineering technology. The topics studied include safety, Ohm’s Law, engineering notation, direct current circuits, capacitance, inductance, reactance, impedance, analog and digital waveforms, basic motors, number systems, logic gates, Boolean algebra, flip–flops, shift registers, and micro–processors. Techniques in computer simulation and electrical measurements will be stressed.

Engineering Technology 14A

Electronics for Engineering Technologists I

1.5 units; 1 hour lecture, 2 hours lab Credit, degree applicable

Transfer CSU

This is the first of two courses in which students are introduced to the application of electronics in engineering technology. The topics studied include safety, Ohm’s Law, engineering notation, direct current circuits, capacitance, inductance, reactance, and impedance. Techniques in computer simulation and electrical measurements will be stressed.

Note: The two course sequence Engineering Technology 14A and 14B is the same as Engineering Technology 14.

______________________________________________ The hours per week of courses may be

adjusted based on the length of the term. ______________________________________________

Courses

Engineering Technology 14B

Electronics for Engineering Technologists II

1.5 units; 1 hour lecture, 2 hours lab

Recommended Preparation: Engineering Technology 14A Credit, degree applicable

Transfer CSU

This is the second of two courses in which students are introduced to the application of electronics in engineering technology. The topics studied include safety, analog and digital waveforms, basic motors, number systems, logic gates, Boolean algebra, flip–flops, shift registers, and micro–processors. Techniques in computer simulation and electrical measurements will be stressed.

Note: The two course sequence Engineering Technology 14A and 14B is the same as Engineering Technology 14.

Engineering Technology 16

Computer Integrated Manufacturing

3 units; 2 hours lecture, 4 hours lab Credit, degree applicable

Transfer CSU

This course covers the integration of engineering technology principles and automation in manufacturing environments. Students will create three–dimensional designs with modeling software and produce actual components of their designs on Computer Numerically Controlled (CNC) machine tools. Additional topics covered include machine tool operations, simulations, Rapid Prototyping (RP), robotics, and manufacturing systems.

Engineering Technology 16A

Computer Integrated Manufacturing I

1.5 units; 1 hour lecture, 2 hours lab Credit, degree applicable

Transfer CSU

This is the first of two courses that cover the integration of engineering technology principles and automation in manufacturing environments. The topics covered include machine tool operations, simulations, and robotics.

Note: The two course sequence Engineering Technology 16A and 16B is the same as Engineering Technology 16.

Engineering Technology 16B

Computer Integrated Manufacturing II

1.5 units; 1 hour lecture, 2 hours lab

Recommended Preparation: Engineering Technology 16A Credit, degree applicable

Transfer CSU

This is the second of two courses that cover the integration of engineering technology principles and automation in manufacturing environments. Students will create three–dimensional designs with modeling software and produce actual components of their designs on Computer Numerically Controlled (CNC) machine tools. Additional topics covered include simulations, Rapid Prototyping (RP), and manufacturing systems.

Note: The two course sequence Engineering Technology 16A and 16B is the same as Engineering Technology 16.

Engineering Technology 18

Engineering Design and Development

3 units; 2 hours lecture, 4 hours lab

Prerequisite: Engineering Technology 12 or 12A and 12B; and 14 or 14A and 14B; and 16 or 16A and 16B with a minimum grade of C in prerequisite

Credit, degree applicable Transfer CSU

In this capstone course, teams of students will work together to design and construct solutions to engineering problems. Emphasis will be placed on research methods, design problem statements, continuous improvement, cost analysis, prototyping, testing methods, project construction, and project presentation.

Engineering Technology 18A

Engineering Design and Development I

1.5 units; 1 hour lecture, 2 hours lab

Prerequisite: Engineering Technology 12 or 12A and 12B; and 14 or 14A and 14B; and 16 or 16A and 16B with a minimum grade of C

Credit, degree applicable Transfer CSU

This is the first course in a two course sequence that covers engineering design and development concepts. In this capstone course, teams of students will work together to design and construct solutions to engineering problems. Emphasis will be placed on research methods, design problem statements, continuous improvement, cost analysis, and prototyping. Knowledge gained will be applied to a design solution of a problem assigned in the capstone project.

Note: The two course sequence Engineering Technology 18A and 18B is the same as Engineering Technology 18

Engineering Technology 18B

Engineering Design and Development II

1.5 units; 1 hour lecture, 2 hours lab

Prerequisite: Engineering Technology 18A with a minimum grade of C

Credit, degree applicable Transfer CSU

This is the second course in a two–course sequence that covers engineering design and development. In this capstone course, teams of students will work together to design and construct solutions to engineering problems. Emphasis will be placed on testing methods, project construction, project presentation, and professional peer review.

Note: The two course sequence Engineering Technology 18A and 18B is the same as Engineering Technology 18

Courses

In document Metodologías ágiles para desarrollo de proyectos en la gestión de las organizaciones públicas en Colombia (página 64-67)