Acronym | PE |
---|---|
Type | Pencil-and-paper exam; Computer-based exam (Select exams only) |
Developer / administrator | National Council of Examiners for Engineering and Surveying |
Knowledge / skills tested | Analytical reasoning, quantitative reasoning, discipline-specific subjects |
Purpose | Professional licensure |
Year started | 1966 |
Duration | 8 hours |
Score / grade range | Pass/Fail |
Offered | Twice annually (April and October); Year-round (Select exams only) |
Countries / regions | United States |
Languages | English |
Prerequisites / eligibility criteria | Varies per state; generally the examinee must have passed Fundamentals of Engineering Exam and have four years of professional experience. |
Fee | Varies per state |
Scores / grades used by | Professional state licensing boards |
Website | ncees |
The Principles and Practice of Engineering exam is the examination required for one to become a Professional Engineer (PE) in the United States. It is the second exam required, coming after the Fundamentals of Engineering exam.
Upon passing the PE exam and meeting other eligibility requirements, that vary by state, such as education and experience, an engineer can then become registered in their State to stamp and sign engineering drawings and calculations as a PE.
While the PE itself is sufficient for most engineering fields, some states require a further certification for structural engineers. These require the passing of the Structural I exam and/or the Structural II exam.
The PE Exam is created and scored by the National Council of Examiners for Engineering and Surveying (NCEES). NCEES is a national non-profit organization composed of engineering and surveying licensing boards representing all states and U.S. territories. [1] [2]
Exams are offered twice a year, once in April and once in October, and are discipline-specific. [3] With the exception of the Structural exam, each exam is eight hours long, consisting of two 4-hour sessions administered in a single day with a lunch break. There are 40 multiple-choice questions per session. Several disciplines require a common morning breadth exam which broadly covers the discipline and then a more detailed afternoon depth exam where the test taker selects a more detailed area of the discipline. Other disciplines essentially have morning and afternoon breadth exams. [4]
The Structural exam is 16 hours long and administered over two days, with two 4-hour sessions and a lunch break per day. Morning breadth sessions consist of 40 multiple-choice questions, while the afternoon depth sessions require essay responses. An examinee must earn a passing score on both days' exams in order to pass overall, but need not obtain those scores during the same administration of the exam. In computer-based test (CBT) examinees are given access to on-screen reference manuals but for non CBT exams examinees are allowed to carry reference manuals, codes and spirally bided documents.[ citation needed ]
NCEES began the process of transitioning exams to computer-based testing (CBT) in 2011. NCEES has successfully converted some of the exams and all other NCEES exams are currently in the conversion process and scheduled to launch in computer-based format between now and 2024. Some CBT exams are administered year-round. Other CBT exams that have a smaller examinee population use a different high-stakes testing model and are administered on a single day each year.
PE exams are offered for the following disciplines:
Unlike the Fundamentals of Engineering Exam, outside reference sources are allowed for the PE Exam. The general rule is that any such materials must be in some sort of permanent binding (book, three-ring, spiral, etc.); loose papers and notes are prohibited. No writing tools or scratch paper may be brought in, and only calculators specifically approved by NCEES may be used.[ citation needed ] Examinees are provided with mechanical pencils and may use the test booklet as scratch paper for solving problems.
The PE exam is a professional exam much like the examinations required for public accounting, law, and other professions for which protection of the public is of the utmost concern. Consequently, exam candidates typically spend large amounts of time preparing for the exam. [6] Exam pass rates vary by discipline module and test date, for the April 2010 exam, the pass rates for first time test takers ranged from 85% (Naval Architecture) to 46% (Structural I). The pass rates for repeat test takers is considerably lower. [7]
October 2016 Exam
Exam | First-Time Takers | Repeat Takers | ||
---|---|---|---|---|
Volume | Pass Rate | Volume | Pass Rate | |
PE Agricultural and Biological (April 2016) | 29 | 72% | 5 | 60% |
PE Architectural (April 2016) | 86 | 86% | 6 | 33% |
PE Chemical | 296 | 71% | 66 | 32% |
PE Civil Construction | 742 | 55% | 708 | 29% |
PE Civil Geotechnical | 505 | 63% | 295 | 27% |
PE Civil Structural | 1347 | 66% | 590 | 43% |
PE Civil Transportation | 1421 | 68% | 815 | 33% |
PE Civil Water Resources and Environmental | 1430 | 71% | 613 | 35% |
PE Control Systems | 229 | 79% | 49 | 45% |
PE Electrical and Computer: Computer Engineering | 21 | 62% | 7 | 29% |
PE Electrical and Computer: Electrical and Electronics | 104 | 78% | 43 | 60% |
PE Electrical and Computer: Power | 1003 | 66% | 509 | 38% |
PE Environmental | 242 | 62% | 114 | 37% |
PE Fire Protection | 148 | 64% | 72 | 38% |
PE Industrial and Systems (April 2016) | 72 | 78% | 15 | 13% |
PE Mechanical HVAC and Refrigeration | 495 | 83% | 154 | 48% |
PE Mechanical Mechanical Systems and Materials | 553 | 73% | 147 | 47% |
PE Mechanical Thermal and Fluid Systems | 643 | 73% | 204 | 47% |
PE Metallurgical and Materials | 45 | 67% | 7 | 57% |
PE Mining and Mineral Processing | 51 | 65% | 11 | 27% |
PE Naval Architecture and Marine Engineering (April 2016) | 56 | 75% | 10 | 10% |
PE Nuclear | 25 | 72% | 10 | 70% |
PE Petroleum | 192 | 66% | 55 | 40% |
PE Software (April 2016) | 9 | 56% | 6 | 33% |
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