Engineering Orientation COE 001 (TIP Reviewer)

COE 001: Engineering Orientation Section:

Instructor: Chester F. Dizon, CPE FB Group: Instructor Chet Edmodo Group: 3phqec Vision: "kill the fire" --> goal

Mission: "get the fire extinguisher, run and spray it to the fire" --> step-by-step to get the goal

Outcomes based education: "end-in-view" / you know the outcome already / student-centered learning *Engineers are problem solvers

OBE = required reading before hand Traditional learning: watching a movie

Institutional - Graduate Attributes 1.

Program Level - Student Outcomes 2.

Classroom Level - OBTL 3.

Levels of OBE

- Outcomes-based teaching and learning

- OBTL --> approach to support the outcomes. Classroom level - OBE is institutional level, (e.g. graduate attributes)

- Students outcomes is program-level - teacher is the one studying - lecture type is teacher-centered

- Traditional learning or education (just like High School) - context based learning / teacher centered learning

- OBTL - student-centered learning

Intended Learning Outcome -> Aimed goal at the end of the day. 1.

Lecture type a.

Reporting (not as effective, because reporters are the one studying) b.

Discussion (interactive, not yes or no questions) c.

Teaching and Learning Activities --> Activities that promote learning 2.

Different from evaluation a.

Assessment Is gathering data. b.

Evaluation is obtained after assessment (gathering of data) c.

Si Tiu may perfect attendance (evaluation) kasi lagi kong nakikitang pumapasok (assessment) d.

Assessment 3.

Three Major Parts of OBTL

*ILO, activities and the means of assessment should be set before the start of the class. *Time is wasted kung hindi nag-aaral yung students.

*Students should know what to talk about even before you go to class. Importance of OBTL

* CHED says we have to implement OBTL in 2012 * 2009 TIP has already implemented OBTL

Where do I begin the journey? Course Introduction; TIP Mission/Vision 2020 and its Accomplishments; Outcomes-Based Education, Graduate

Attributes/Institutional Intended Learning Outcomes; Student Outcomes/Program Intended Learning Outcomes; Outcomes-Based Teaching and Learning. 1.

Prelim Period (Week 1-6)

Engineering Orientation: bird's eye view about engineering VISION

In the year 2020, TIP envisions itself to be:

a leading professional technological institution through 1a) outcomes-based education, and

1b) a culture of innovation and continuous improvement, and an institution whose graduates contribute to the welfare of society.

Engineering Orientation (Prelims)

MISSION

The Technological Institute of the Philippines is committed

to continue to empower the Filipino youth through technological education of the highest standard, employing outcomes -based education and state-of-the-art laboratories

to transform students into graduates with full competence in their fields of study and who also possess:

- The Filipino values of honesty and integrity, service to others, the importance of family, frugality, resilience in the face of adversity, and the willingness to surmount difficulties in order to succeed and excel.

- The industry-desired values of positive work attitude, good communication skills, proficiency in computers and in the software that pertai n to their fields of study, initiative, and the openness to keep on learning to reinvent themselves.

- The global citizen values of respect for cultural diversity, care for the environment and the desire to contribute to the gen eral welfare of society. TIP Accomplishments:

What is Engineering? Introduction to Engineering; History of Engineering; Disciplines of Engineering; Desired Competencies of Engineering Graduates toward Global Industry; Career Path of Engineering Graduates; Understanding Principles of

Professional Ethics, engineering ethical standard, professional ethics, engineering ethical practices. I.

Engineering Orientation (Midterms)

Quiz on Desired Competencies of Engineering Graduates towards Global Industry) Answer: False. Ability to communicate effectively.

The ability to communicate ineffectively is one of the desired competencies of engineering graduates.

1.

Answer: False. Competence.

According to Wikipedia, competency is the ability of an individual to do a job properly.

2.

Answer: Competency

Q is a set of defined behaviors that provide a structured guide enabling the identification, evaluation and development of the behaviors in individual employees.

3.

Answer: Capacity, capability, ability. The synonym of competency.

4.

Answer: Student Outcomes

The desired competencies of engineering graduates are more specifically similar to:

5.

Quiz on Disciplines of Engineering

Answer: Computer Engineering

The engineering discipline that is created out of combining both Electrical Engineering and Computer Science, and that focuses on both hardware and software aspects of the computer system.

1.

Answer: Industrial Engineering

The engineering discipline that brings together the various sciences concerned with the technology, the production of goods, performance of services and the way in which people work.

2.

Answers: Chemical Engineering, Civil Engineering, Electrical Engineering, Mechanical Engineering The following items belong to the four major disciplines of engineering:

3.

Answer: Audio Engineering

The engineering discipline that concerns with the recording, manipulation, mixing and reproduction of sound.

4.

Answer: Sanitary Engineering

It is the profession that involves planning, designing, managing, constructing, operating and maintenance in the fields of water supply engineering, solid waste management, sewage, waste water engineering,

environmental management in accordance with the governing laws, code of ethics and responds to local and global technological trends and developments.

5.

Answer: Petroleum Engineering

It is the discipline of engineering that focuses on the identification, extraction, storage and transportation of crude oil and natural gas.

6.

Answer: Engineering

It is the discipline, art, and profession that applies scientific theory to develop and analyze technological solutions.

7.

Answer: Mechanical Engineering

The discipline of engineering that focuses on machines, structures, devices, mechanical systems, and energy conversion systems.

8.

Answer: Electronic Engineering

The engineering discipline that focuses on how to design, construct, integrate, operate and maintain electronic equipment, devices and circuits used in the transmission and processing of information.

9.

Answer: Environmental Engineering

It is the discipline of engineering that is used to create strategies to protect and improve the environment, including everything created by nature.

10.

Quiz on Engineering and its History

Answer: False, five machines

An Iraqi by the name of al-Jazari built four machines to pump water for the kings of the Turkish Artuqid dynasty and their palaces.

1.

The first electrical engineer is considered to be William Gilbert, with his 1600 publication of Les Miserables, who was the originator of the term "electricity".

2.

Quizzes (Midterms)

Answer: False, publication of De Magnete who was the originator of the term "electricity".

Answer: True

Electrical Engineering can trace its origins in the experiments of Alessandro Volta in the 19th century, the experiments of Michael Faraday, Georg Ohm and others and the invention of the electric motor in 1872.

3.

Answer: False, developed in the 19th_century

Chemical Engineering, like its counterpart Mechanical Engineering, developed in the 18th century during the Industrial Revolution.

4.

Answer: False, three Eras (ancient, renaissance, modern)

According to Wikipedia, there are 5 era to consider when discussing the history of engineering.

5.

Answer: False, abacus is not made out of coins, but beads.

The earliest computing device known to man is called Abacus, which is made out of coins.

6.

Answer: True

Engineering sprang out from the two important branches of knowledge which are science and mathematics.

7.

Answer: True

In 1990, with the rise of computer technology, the first search engine was built by computer engineer Alan Emtage.

8.

Answer: True

Engineers are problem-solvers.

9.

Answer: False, real, not real.

Engineering combines the fields of science and mathematics to solve reel world problems that improve the world around us.

Engineering

- from Latin words, Ingenium (cleverness) and Ingeniare (to contrive, devise)

- application of scientific, economic, social and practical knowledge in order to invent, design, build, maintain, and improve structures, machines, devices, system, materials and processes.

-American Engineers' Council for Professional Development (ECPD) - exploiting basic mechanical principles to develop useful tools and objects - engineer (1325) - one who operates an engine

- Civil Engineering - earliest engineering discipline

Ancient Era - Acropolis, Parthenon in Greece, Roman aqueduducts, Via Appia, Colosseum, pyramids of Egypt

* Imhotep - Earliest Civil Engineer (Pyramid of Djoser) * Antikythera Mechanism - earliest known model of computer

Middle Era

- Al- Jazari (Iraq) built give machines to pump water Renaissance Era

* Wiliam Gilbert - First electrical engineer with his publication De Magnete (1600), "electricity" * Thomas Savery - First steam engine (1698)

Modern Era

* Electrical Engineering - Volta, Faraday and Ohm

* Electronics - Maxwell, Hertz

* Mechanical Engineering - Savery and Watt

*Chemical Engineering (19th) - developed during Industrial Revolution

Willard Gibbs (First PHD in Engineering) Alan Emtage (First Search Engine)

Chemical engineering

Subdiscipline Scope

Biomolecular engineering Focuses on the manufacturing ofbiomolecules.

Materials engineering Involves properties of matter (material) and its applications to engineering

Molecular engineering Focuses on the manufacturing ofmolecules.

Process engineering Focuses on the design, operation, control, and optimization of chemical processes

Civil engineering

Subdiscipline Scope

Environmental engineering The application of engineering to the improvement and protection of the environment

Geotechnical engineering Concerned with the behavior of geological materials at the site of a civil engineering project

Structural engineering The engineering of structures that support or resiststructural loads

Transport engineering The use of engineering to ensure safe and efficient transportation of people and goods

Water resources engineering Prediction, planning, development and management of water resources

Electrical engineering

Subdiscipline Scope

Computer engineering

The design and control of computing devices with the application of electrical systems.

Electronic engineering

The design ofcircuitsthat use the electromagnetic properties of electrical components such as resistors, capacitors, inductors, diodes and transistors to achieve a particular functionality.

Optical engineering

The design of instruments and systems that utilize the properties of electromagnetic radiation.

Power The generation, transmission and distribution of electricity, and the design of devices such as transformers, electric

Engineering

Sunday, September 07, 2014 12:51 PM

Power engineering

The generation, transmission and distribution of electricity, and the design of devices such as transformers, electric generators, electric motors, high-voltage engineering, and power electronics.

Mechanical engineering[edit]

Mechanical engineeringcomprises the design, analysis and usage of heat and mechanical power for the operation of machines and mechanical systems.

Subdiscipline Scope

Acoustical engineering Concerns the manipulation and control of vibration, especially vibration isolation and the reduction of unwanted sounds

Manufacturing engineering

Concerns dealing with different manufacturing practices and the research and development of systems, processes, machines, tools and equipment.

Thermal engineering Concerns heating or cooling of processes, equipment, or enclosed environments

Vehicle engineering The design, manufacture and operation of the systems and equipment that propel and control vehicles Systems engineering

Discipline Scope

Aerospace engineering The application of engineering principles to aerospace systems such asaircraft,spacecraft, and ground control systems. Formerly known as aeronautical engineering, concerns the design, construction, and science of both air and space vehicles, primarily on the systems level. Further concerned with the science of force and physics

that are particular only to performance in Earth's atmosphere and the expanse of space. Often placed withinVehicle engineering

Agricultural engineering The application of engineering principles to agricultural fields such as farm power and machinery, biological material process, bioenergy, farm structures, and agricultural natural resources

Applied engineering The field concerned with the application of management, design, and technical skills for the design and integration of systems, the execution of newproduct designs, the improvement of manufacturing processes,

and the management and direction of physical and/or technical functions of a firm or organization. Applied engineering degreed programs typically include instruction in basicengineeringprinciples,project management, industrial processes, systems integration and control,quality control, andstatistics.[2]

Biological engineering The application of engineering principles to the fields of biology and medicine.

Building services engineering Building services engineering, technical building services, architectural engineering, or building engineering is the engineering of the internal environment and environmental impact of a building. It essentially brings

buildings and structures to life.

Energy engineering Energy engineering is a broad field of engineering dealing with energy efficiency, energy services, facility management, plant engineering, environmental compliance and alternative energy technologies. The domain

of energy-engineering expertise combines selective subjects from the fields chemical, mechanical and electrical engineering. It is an interdisciplinary program which has relativity with electrical, mechanical and

chemical engineering

Industrial engineering The design and analysis of logistical and resource systems.

Mechatronics A hybrid of mechanical and electrical engineering, Commonly intended to examine the design of automation systems.

Nanoengineering The practice of engineering on thenanoscopic scale Nuclear engineering The application of nuclear processes to engineering