1/23/2013 Nature of Engineering ENGINEERING ETHICS EE 90 - EE LAW‚ ETHICS‚ AND CONTRACTS(2nd SEMES TER AY 2012-2013) Engr. Raymond Joseph Marqueses Department of Electrical Engineering‚ CEAT‚ UPLB Ethics • A set of moral principles or values that govern the conduct of an individual belonging to a group or profession. Engineering Ethics • Standards of proper conduct that brings the most of the non-technical aspects of engineering into engineering practice. • Includes the following
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capacitors‚ solid-state memories‚ and thin-film materials processes. SCHEMATIC SYMBOL AND FUNCTION. Name | Electrical Symbol | Alternate Symbol | Function Description | ground | | | A connection to earth. Used for zero potential reference and electrical shock protection. | equipotentiality | | | Equipotentiality is a symbol to identify parts that have the same voltage (ie same electrical potential ie equipotential). Since equipotential surfaces all have the same voltage‚ you won’t get shocked
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In electricity generation‚ an electric generator is a device that converts mechanical energy to electrical energy. A generator forces electrons in the windings to flow through the external electrical circuit. It is somewhat analogous to a water pump‚ which creates a flow of water but does not create the water inside. The source of mechanical energy may be a reciprocating or turbine steam engine‚ water falling through a turbine or waterwheel‚ an internal combustion engine‚ a wind turbine‚ a hand crank
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Data Analysis: In connection with the familiarization with electrical instruments‚ this experiment allowed us to make a simple circuit and measured some circuit elements such as voltage‚ resistance‚ current and power. From the obtained data we can see the relationship of the resistance and current. The Ohm’s Law was very apparent with the data gathered. In Ohm’s Law we know that when voltage and other factors are held constant‚ the current ( I ) is inversely proportional with resistance ( R
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two AA‚ one D‚ one handheldham radio battery‚ two 9-volt (PP3)‚ twoAAA‚ one C‚ one camcorder battery‚ onecordless phone battery. An electric battery is a device consisting of one or more electrochemical cells that convert stored chemical energy into electrical energy. Each cell contains a positive terminal‚ or cathode‚ and a negative terminal‚ or anode. Electrolytes allow ions to move between the electrodes and terminals‚ which allows current to flow out of the battery to perform work. Primary (single-use
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Energy‚ Distributed Generation. I. INTRODUCTION “IN the future‚ many local energy sources‚ such as pho- tovoltaic units‚ fuel cells‚ small turbines‚ small hydro- electric plants‚ and other dispersed sources will become a larger fraction of our electrical supply.” This quote is taken from the 2001 Future Energy Challenge [1]‚ a national US student competition sponsored and set up by the Department of Energy and the IEEE‚ which spanned Fall 2000 through Summer 2001. II. THE 2001 FUTURE ENERGY CHALLENGE
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PC HARDWARE SERVICING COURSE STRUCTURE |Year Level |Second Year | |Grading Period |Unit of Competency |Module Title |Learning Outcome |Nominal Duration | |1st |
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category would have to be computer hardware engineer or being a biomedical engineer. Additionally‚ the career path that I have chosen for myself is the path of being a computer hardware engineer. The reason being is that I like work with computers and electrical systems. For me working with computers would be amazing because I could have a part in designing and building computers not just for consumer use but also for the private sectors in the government. Also‚ I chose this path because it not only provides
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you to judge my commitment and drive‚ I present this document‚ which reflects my academic motivation‚ niy eligibility for pursuing graduate studies and my future plans. My long term career objective is to pursue a research career in the field of Electrical Engineering‚ either ’as a teaching faculty member‚ or in an R & D department of the industry. Masters degree at your university that would help me lay foundation for the fulfillment of my dream. Starting off with my academic’s. My decision to pursue
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EE Technical Electives 10 MCs 114 MCs 20 MCs 16 MCs Total = 160 MCs for graduation Compulsory Modules under Programme Requirements MA1505 Mathematics I MA1506 Mathematics II CS1010E Programming Methodology PC2232 Physics for Electrical Engineers Inner Core Modules = 12 modules‚ 44 MCs Project Modules = 3 modules‚ 22 MCs EE3031 Innovations & Enterprise I – 4 MC EE3032 Innovations & Enterprise II – 6 MC EE4001 BEng Dissertation Thesis – 12 MC Technical Electives = 8 modules‚ 32
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