1. Importance of Becoming a PROFESSIONAL ENGINEER
Presenter:
Mark Austin, PE, FNSPE
CT Society of Professional Engineers
It is my pleasure to be with you today to discuss processional licensure for engineers. I am [provide your name, title, and relevant background associated with engineering licensure]. I want to provide a broad overview for you of professional licensing for engineers and particularly 10 OR MORE reasons that you should become a Professional Engineer!
Sponsored by CTSPE

2. But first, what is a professional engineer?
A professional engineer ( P.E.) is a person who is licensed to practice engineering in a US state or jurisdiction after meeting all requirements of the law. To practice in multiple jurisdictions, the P.E. must be licensed in each jurisdiction in which he or she wishes to practice.
Before getting into the details of professional licensing, let’s answer the question “What is a professional engineer?” Like other professions such as medicine, law, or accounting, engineering is a profession regulated by certain laws. Thus …[Read statement on slide.]
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3. OVERVIEW Legal Requirements for Engineering Practice
Professional Licensure Process
FE Examination Specifications
Strategies for Passing the FE Exam
Study Materials
PE Exam
Answers to Common Questions
Why Become a Licensed Professional Engineer?
What’s Coming??
Let me give you a quick overview of some of the topics I intend to discuss with you today, so we will all share the same concept of where we are going in this discussion. And please, feel free to ask questions at any time. We will discuss…[Read the bulleted items, providing emphasis on those items of particular importance to this specific audience.]
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4. LEGAL REQUIREMENTS
All States and Jurisdictions have Licensure Laws Governing the Practice of Engineering
Most States prohibit persons who are not licensed PE’s from:
Advertising or otherwise indicating to the public that they are an engineer
practicing, offering to practice or holding themselves out as qualified to practice as an engineer
Exemptions for Industrial Practice
In 1907, Wyoming became the first state to require professional registration for those persons who wanted to practice engineering and land surveying. Now all states and jurisdictions of the United States have registration laws governing the practice of engineering, as do many foreign countries. These laws are often both “title acts” and “practice acts”, i.e.…[note the difference, giving examples if you have the time]
Despite these legal provisions, the majority of engineers in the U.S. are not licensed. Why? ...Because in most states there are certain exemptions for industrial practice.

5. What are the requirements to become licensed as a P.E.?
Education (EAC/ABET)
Some states still allow other degrees such as related science degrees
FE Exam (FE)
Experience (4 years)
PE Exam (P&PE)
What are the requirements to become licensed as a P.E.? While there are minor differences from state to state, generally licensing for engineers, just as in other professions, is based on education, experience, and examinations.... In engineering, this means getting a bachelor’s degree in engineering from an accredited program, passing the Fundamentals of Engineering Exam, sometimes called the EIT Exam, then obtaining four years of engineering experience, and finally passing the Principles and Practices of Engineering Exam in your chosen discipline (Electrical, Civil, etc.) [Should the question arise about whether the experience must be under the direct supervision of a PE, it is important to explain that this varies from state to state. However, the general rule is that experience under a PE is preferred, but other experience can be credited with appropriate additional references from PE’s who were not in direct supervision.
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6. First Step – College Education
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7. What is an “accredited” degree?
Engineering programs at most colleges or universities award engineering degrees from programs that are accredited by the Engineering Accreditation Commission of ABET, Inc.
If you do not have a degree from an accredited program you may not be able to get a license in some states.
If you have never heard of EAC/ABET, you might first wonder if your school is accredited. You can usually find out by consulting the school’s catalogue or asking a faculty person. If your school is accredited you can typically become licensed with an engineering BS degree, four years of qualifying experience after graduation and passing the FE and P&PE examinations. If your school is not accredited, it may take additional experience or, in some states, you cannot become licensed as a P.E.
(Note: It is recommended that the presenter be prepared to answer the question about which schools are EAC/ABET accredited within the territory of interest to the audience. Such a list is available from the ABET web sit,
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8. Second Step – FE Exam
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9. FE Examination Format Electronic as of 2014
110 multiple-choice questions.
Closed book with electronic reference
Appointment time is 6 hours long,
a nondisclosure agreement, tutorial (8 minutes),
the exam (5 hours and 20 minutes),
a scheduled break (25 minutes),
brief survey.
The first examination, called the Fundamentals of Engineering Exam, or “FE” exam and sometimes the “EIT”, is normally taken in the final year of engineering school or soon after graduation. The NCEES recently changed the format of this eight hour examination The morning examination covers subjects common to most engineering disciplines, [read at least some of the text in the top of the slide]. In the afternoon, the candidate chooses to work problems from one of the major engineering areas. [Read titles] Note that there are 120 problems in the morning worth one point each and 60 problems in the afternoon worth 2 points each. Thus the two parts have equal value and total possible is 240 points.
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10. Mechanical CBT Specifications
1. Mathematics 6–9 questions
Analytic geometry
Calculus
Linear algebra
Vector analysis
Differential equations
Numerical methods
The first four hours of the FE exam covers topics that form the basis for all disciplines of engineering....
Note that engineering ethics is included in this exam, so if you are not already familiar with one of the Codes of Ethics for Engineers, you should study the ethics section furnished by NCEES.
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11. Mechanical CBT Specifications
2. Probability and Statistics 4–6
Probability distributions
Regression and curve fitting
3. Computational Tools 3–5
Spreadsheets
Flow charts
The first four hours of the FE exam covers topics that form the basis for all disciplines of engineering....
Note that engineering ethics is included in this exam, so if you are not already familiar with one of the Codes of Ethics for Engineers, you should study the ethics section furnished by NCEES.
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12. Mechanical CBT Specifications
4. Ethics and Professional Practice 3–5
Codes of ethics
Agreements and contracts
Ethical and legal considerations
Professional liability
Public health, safety, and welfare
The first four hours of the FE exam covers topics that form the basis for all disciplines of engineering....
Note that engineering ethics is included in this exam, so if you are not already familiar with one of the Codes of Ethics for Engineers, you should study the ethics section furnished by NCEES.
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13. Mechanical CBT Specifications
5. Engineering Economics 3–5
Time value of money
Cost, including incremental, average, sunk, and estimating
Economic analyses
Depreciation
The first four hours of the FE exam covers topics that form the basis for all disciplines of engineering....
Note that engineering ethics is included in this exam, so if you are not already familiar with one of the Codes of Ethics for Engineers, you should study the ethics section furnished by NCEES.
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14. Mechanical CBT Specifications
6. Electricity and Magnetism 3–5
Charge, current, voltage, power, and energy
Current and voltage laws (Kirchhoff, Ohm)
Equivalent circuits (series, parallel)
AC circuits
Motors and generators
The first four hours of the FE exam covers topics that form the basis for all disciplines of engineering....
Note that engineering ethics is included in this exam, so if you are not already familiar with one of the Codes of Ethics for Engineers, you should study the ethics section furnished by NCEES.
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15. Mechanical CBT Specifications
7. Statics 8–12
Resultants of force systems
Concurrent force systems
Equilibrium of rigid bodies
Frames and trusses
Centroids
Moments of inertia
Static friction
The first four hours of the FE exam covers topics that form the basis for all disciplines of engineering....
Note that engineering ethics is included in this exam, so if you are not already familiar with one of the Codes of Ethics for Engineers, you should study the ethics section furnished by NCEES.
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16. Mechanical CBT Specifications
8. Dynamics, Kinematics, and Vibrations 9–14
Kinematics of particles
Kinetic friction
Newton’s second law for particles
Work-energy of particles
Impulse-momentum of particles
Kinematics of rigid bodies
Kinematics of mechanisms
Newton’s second law for rigid bodies
Work-energy of rigid bodies
Impulse-momentum of rigid bodies
Free and forced vibrations
The first four hours of the FE exam covers topics that form the basis for all disciplines of engineering....
Note that engineering ethics is included in this exam, so if you are not already familiar with one of the Codes of Ethics for Engineers, you should study the ethics section furnished by NCEES.
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17. Mechanical CBT Specifications
9. Mechanics of Materials 8–12
Shear and moment diagrams
Stress types (axial, bending, torsion, shear)
Stress transformations
Mohr’s circle
Stress and strain caused by axial loads
Stress and strain caused by bending loads
Stress and strain caused by torsion
Stress and strain caused by shear
Combined loading
Deformations
Columns
The first four hours of the FE exam covers topics that form the basis for all disciplines of engineering....
Note that engineering ethics is included in this exam, so if you are not already familiar with one of the Codes of Ethics for Engineers, you should study the ethics section furnished by NCEES.
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18. Mechanical CBT Specifications
10. Material Properties and Processing 8–12
Properties, including chemical, electrical, mechanical, physical, and thermal
Stress-strain diagrams
Engineered materials
Ferrous metals
Nonferrous metals
Manufacturing processes
Phase diagrams
Phase transformation, equilibrium, and heat treating
Materials selection
Surface conditions
Corrosion mechanisms and control
Thermal failure
The first four hours of the FE exam covers topics that form the basis for all disciplines of engineering....
Note that engineering ethics is included in this exam, so if you are not already familiar with one of the Codes of Ethics for Engineers, you should study the ethics section furnished by NCEES.
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19. Mechanical CBT Specifications
11. Fluid Mechanics 9–14
Fluid properties
Fluid statics
Energy, impulse, and momentum
Internal flow
External flow
Incompressible flow
Compressible flow
Power and efficiency
Performance curves
Scaling laws for fans, pumps, and
The first four hours of the FE exam covers topics that form the basis for all disciplines of engineering....
Note that engineering ethics is included in this exam, so if you are not already familiar with one of the Codes of Ethics for Engineers, you should study the ethics section furnished by NCEES.
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20. Mechanical CBT Specifications
12. Thermodynamics 13–20
Properties of ideal gases and pure substances
Energy transfers
Laws of thermodynamics
Processes
Performance of components
Power cycles, thermal efficiency, and enhancements
Refrigeration and heat pump cycles and coefficients of performance
Nonreacting mixtures of gases
Psychrometrics
Heating, ventilating, and air-conditioning (HVAC) processes
Combustion and combustion products
The first four hours of the FE exam covers topics that form the basis for all disciplines of engineering....
Note that engineering ethics is included in this exam, so if you are not already familiar with one of the Codes of Ethics for Engineers, you should study the ethics section furnished by NCEES.
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21. Mechanical CBT Specifications
13. Heat Transfer 9–14
Conduction
Convection
Radiation
Thermal resistance
Transient processes
Heat exchangers
Boiling and condensation
The first four hours of the FE exam covers topics that form the basis for all disciplines of engineering....
Note that engineering ethics is included in this exam, so if you are not already familiar with one of the Codes of Ethics for Engineers, you should study the ethics section furnished by NCEES.
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22. Mechanical CBT Specifications
14. Measurements, Instrumentation, and Controls 5–8
Sensors
Block diagrams
System response
Measurement uncertainty
The first four hours of the FE exam covers topics that form the basis for all disciplines of engineering....
Note that engineering ethics is included in this exam, so if you are not already familiar with one of the Codes of Ethics for Engineers, you should study the ethics section furnished by NCEES.
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23. Mechanical CBT Specifications
15. Mechanical Design and Analysis 9–14
Stress analysis of machine elements
Failure theories and analysis
Deformation and stiffness
Springs
Pressure vessels
Beams
Piping
Bearings
The first four hours of the FE exam covers topics that form the basis for all disciplines of engineering....
Note that engineering ethics is included in this exam, so if you are not already familiar with one of the Codes of Ethics for Engineers, you should study the ethics section furnished by NCEES.
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24. Mechanical CBT Specifications
15. Mechanical Design and Analysis 9–14 (continued)
Power screws
Power transmission
Joining methods
Manufacturability
Quality and reliability
Hydraulic components
Pneumatic components
Electromechanical compo
The first four hours of the FE exam covers topics that form the basis for all disciplines of engineering....
Note that engineering ethics is included in this exam, so if you are not already familiar with one of the Codes of Ethics for Engineers, you should study the ethics section furnished by NCEES.
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25. FE EXAM STRATEGIES Watch the time THINK before you start
Eliminate incorrect choices
Answer all questions
Prepare for the test
Since the FE is a multiple choice exam, there are certain test-taking strategies that you should employ to help you pass the test.... [I find it useful to discuss each bullet at some length. By THINK BEFORE YOU START I mean making sure you think about the problem and try to select the easiest way to work it. Many problems that could be done with integration might also be done by finding the area under the curve or energy methods, etc.]
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26. FE Pass Rates (J/F & A/M 2014)
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27. STUDY MATERIALS FE Sample Questions Book
FE Exam Supplied Reference Book
National Council of Examiners for Engineering
and Surveying (NCEES)
280 Seneca Creek Road
Seneca, SC 29678
Phone: (800)
Fax: (803)
Internet:
There are many different study guides and review manuals available to help you prepare for the FE and PE exams. Since the NCEES is the organization that prepares the tests for all jurisdictions to use, I particularly suggest that you get materials from NCEES. They can be ordered from the web site. Note that in most jurisdictions, you are given a copy of the supplied reference book at no cost when you sign up for the exam. It can also be obtained directly from the web, but requires many pages of printing.
[Where appropriate, include information about available review materials like those from NSPE and ASCE for the CE exam, IEEE for the EE exam, etc. Examples would be the PE Readiness courses from NSPE, the PE Review CD ROM from NSPE, PE Review videos from IEEE. More info available from these organization on their web sites.]
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28. FREQUENT QUESTIONS
Can I transfer my Engineer Intern (EI) Registration?
Will graduate school count for the 4 years experience requirement?
What score is required to pass the test?
If I fail, can I take the test again?
How can I contact the licensure board in my state when I’m ready for the PE exam?
Let me answer a few of the questions that I am frequently asked about professional engineering registration. I’ll begin with some of the simplest ones....
[No need to transfer –all jurisdictions recognize EIT status from other states]
[Graduate work counts for one year, only if it is in engineering, not MBA, etc.]
[Exam is equated, so no set score is known ahead of time, but typically about 50% correct will pass]
[Yes, the exam may be repeated – but who wants to endure it again, so get prepared and pass the first time]
[Go to and find address, telephone, of your state board.]
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29. PE LICENSE The next step is to gain work experience.
Four years of “progressive engineering experience”
Three years with an MS degree (most states)
Two years with a Ph.D. degree (many states)
The Principles and Practice exam (PE)
If you have never heard of EAC/ABET, you might first wonder if your school is accredited. You can usually find out by consulting the school’s catalogue or asking a faculty person. If your school is accredited you can typically become licensed with an engineering BS degree, four years of qualifying experience after graduation and passing the FE and P&PE examinations. If your school is not accredited, it may take additional experience or, in some states, you cannot become licensed as a P.E.
(Note: It is recommended that the presenter be prepared to answer the question about which schools are EAC/ABET accredited within the territory of interest to the audience. Such a list is available from the ABET web sit,
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30. Next Step – PE Exam
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31. PE Exams Group 1 – Offered twice per year
Group 1 Exams offering multiple afternoon depth modules
Civil
Construction
Geotechnical
Structural
Transportation
Water Resources and Environmental
Mechanical
HVAC and Refrigeration
Mechanical Systems and Materials
Thermal and Fluids Systems
Group 1 Exams without multiple afternoon depth modules
Chemical
Electrical and Computer – Computer Engineering
Electrical and Computer – Electrical and Electronics
Electrical and Computer – Power
Environmental
Structural (16-hour)
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32. PE Exams Group 2 Exams – Offered once per year APPROVED CALCULATORS
Agricultural
Architectural
Control Systems
Fire Protection
Industrial
Metallurgical and Materials
Mining and Mineral Processing
Naval Architecture and Marine
Nuclear
Petroleum
APPROVED CALCULATORS
NCEES 2012 Approved Calculator List
Casio: All fx-115 models
Hewlett-Packard: HP 33s and HP 35s only
Texas Instruments: All TI-30X and TI-36X models
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33. PE Exam Open Book Exam, bound materials.
8-10 weeks after exam Boards get score
Test results vary by state board
Pass / Fail exam with diagnostic
About a dozen of the states license engineers by their discipline. Most of the states provide a license simply as a Professional Engineer, or P.E. Even in some of these states where the license states only professional engineer, the Board may publish a roster of registrants which lists your primary discipline. [Be sure to note second bullet and that you must limit your practice to areas in which you have demonstrated competence.]
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34. PE Diagnostic Report
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35. PE Pass Rates (April 2014)
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36. After qualifying, am I licensed as a P.E. in my engineering discipline?
In a few states, yes.
In most states, you are licensed as a P.E. without any other designation, however, you can practice only in your field of expertise gained by education and/or experience.
About a dozen of the states license engineers by their discipline. Most of the states provide a license simply as a Professional Engineer, or P.E. Even in some of these states where the license states only professional engineer, the Board may publish a roster of registrants which lists your primary discipline. [Be sure to note second bullet and that you must limit your practice to areas in which you have demonstrated competence.]
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37. Can I become licensed nationally?
No. Just as with other professions, the requirements for licensure are left to the states. However, most state laws are similar to the NCEES model law so usually you do not have to pass exams again and you can be licensed by “comity”.
Licensing professional practitioners is not mentioned in the US Constitution, so it is among those powers “reserved to the states”. However, since engineering has adopted quite uniform licensing requirements and national examinations, it is usually very easy to obtain your license in additional states through a process called comity.
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38. “Expedited Comity”
If you obtain and maintain a “Council Record” with NCEES, and you are determined to be qualified as a “Model Law Engineer”, many states will grant you a PE license quickly–within a week or two.
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39. What are the 10 reasons for becoming licensed as a P.E.?
There are really more than 10 reasons but most will fall in four categories . . .
1. A legal necessity.
2. Improved employment security.
3. Better opportunities for advancement.
4. Personal satisfaction.
Well, finally we are ready to address those top ten reasons for becoming licensed as a Professional Engineer.....
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40. Legal Necessity
1. If you ever want or need to practice as a consulting engineer, you must be licensed as a P.E.
2. Only a P.E. can practice as a professional engineer and sign and seal engineering documents that are submitted to a public authority or for public and private clients.
Some engineering graduates may initially be employed by a Consulting Engineering firm. They cannot sign and seal documents until they are licensed.
Increasingly, engineers who change careers or are required to leave employment of a company, turn to consulting if they are licensed.
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41. Improved Employment Security
3. Restructuring, downsizing and outsourcing ARE REAL! A P.E. license may make the difference in finding new employment.
4. Industry and utility exemptions are being considered for elimination by some states.
5. Continuing education is required for a professional engineer-- in many states by law but in all states in practice.
Current trends are for some companies to downsize by reducing employees on their payroll, but hiring them back through a consulting engineering firm. In this case, the engineer must be licensed or must work under the direct supervision of a P.E. employed at the consulting firm.
Some states have already eliminated industry and utility exemptions as not in the public interest. Others are considering the same step.
The PE licensure will assure potential employers that you are maintaining professional competency.
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42. Opportunities for Advancement
6. Many companies encourage licensure and some even pay a bonus for becoming a P.E.
7. In education, there is movement towards requiring a P.E. license for engineering faculty or for holding certain titles.
8. In many industry, utility, and government positions, a P.E. is required for specified jobs or levels.
Look at advertisements for engineering positions. You will find that many employers encourage their engineers to become a P.E.
Some of you will decide to become faculty members, and some colleges require the faculty to be licensed P.E.’s.
Many senior engineering positions require the P.E.
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43. Opportunities for Advancement – (Con’t.)
9. With the engineering profession now operating in an international environment, licensing may be advantageous in the future to work in other countries. You will be better prepared in the event your career moves in this direction.
Don’t forget that most foreign countries recognize the P.E. license!
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44. Personal Satisfaction
10. Licensure is the mark of a professional. Ethical standards, continuing education, and professional competency are expected. P.E. after your name indicates you have met the standards and can be respected as a professional.
Perhaps the most important reason to become a P.E. is the personal satisfaction that it brings to you. It is a credential that belongs to you, not your employer or your position. It brings the respect of your peers and goes with you wherever you career interests may take you.
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45. ... And One More Reason
Oh....and there is one other reason for becoming a PE that may interest you. While there are many things that will affect your salary, the results of this survey of several thousand engineers a few years ago illustrates that ....
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46. OK …. What’s Coming??
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47. Additional Engineering Education as a Prerequisite for Licensure
Implementation of Master’s or Equivalent (MOE) -
The Future of Engineering Education
ASCE NSPE
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48. WHY??
College education is not what it used to be. Less credits required (154 to 120).
Engineering is becoming more complex.
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49. National Academy of Engineering, 2005
“It is evident that the exploding body of science and engineering knowledge can not be accommodated within the context of the traditional four year baccalaureate degree.”
National Academy of Engineering, 2005
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50. Body of
Knowledge
Knowledge, skills, and attitudes necessary to become a licensed professional engineer.
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51. How Does Additional Engineering Education Fit into the Process?
Practice of Engineering at the
Professional Level
Body of Specialized Knowledge
Licensure
More Experience
and
Lifelong Learning and Possibly Specialty Certification
Baccalaureate
Education
Experience
Add’l
Education
FE Exam
PE Exam
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52. Example – Civil Engineering Body of Knowledge ASCE
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53. Example – Civil Engineering Body of Knowledge ASCE
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54. The future . . . Are you ready?
Having a P.E. license is the best insurance policy and could affect your career. The time to start is now. Contact your state licensing board for requirements and examination dates. Licensing board addresses and phone numbers can be obtained from the Internet --
So, I hope this has given you some perspective on professional licensing of engineers and convinced you that your future would be well served by deciding now that you will become a P.E. There is no question that it will never be easier to start the process than right now. As you graduate from your engineering school, your command of the basic areas of engineering is the best it can be....
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55. NSPE encourages you to get it.
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56. ADDITIONAL INFORMATION AND STUDY MATERIALS
National Council of Examiners for Engineering and Surveying
280 Seneca Creek Road
Seneca, SC
Phone: (800)
Fax: (803)
Internet:
NSPE Web site:
There are many different study guides and review manuals available to help you prepare for the FE and PE exams. Since the NCEES is the organization that prepares the tests for all jurisdictions to use, I particularly suggest that you get materials from NCEES. They can be ordered from the web site. Note that in most jurisdictions, you are given a copy of the supplied reference book at no cost when you sign up for the exam. It can also be obtained directly from the web, but requires many pages of printing.
[Where appropriate, include information about available review materials like those from NSPE and ASCE for the CE exam, IEEE for the EE exam, etc. Examples would be the PE Readiness courses from NSPE, the PE Review CD ROM from NSPE, PE Review videos from IEEE. More info available from these organization on their web sites.]
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