![]() Attended EAC/ABET-accredited engineering programs.The pass rates below represent FE examinees who Your licensing board may have additional requirements.įE pass rates are shown for the January–June or July–December population (updated in July and January, respectively). Some licensing boards may require you to file a separate application and pay an application fee as part of the approval process to qualify you for a seat for an NCEES exam. Viewing the most up-to-date FE exam pass ratesĪ $175 exam fee is payable directly to NCEES.Reviewing the FE exam specifications, fees, and requirements.Register for an FE exam by logging in to your MyNCEES account and following the onscreen instructions. The exam appointment time is 6 hours long and includes The FE exam is a computer-based exam administered year-round at NCEES-approved Pearson VUE test centers. It is designed for recent graduates and students who are close to finishing an undergraduate engineering degree from an EAC/ABET-accredited program. Problem 61: Sorry I have a typo, it should have been table instead of graph.The Fundamentals of Engineering (FE) exam is generally your first step in the process to becoming a professional licensed engineer (P.E.). The graph may actually exist somewhere but combined with other differences in nomenclature and lack of references, it is hard to judge what is current and whether it will be a waste of time hunting down data that may or may not exist. It would have been greatly advantageous to refer to the actual section where these are located. However, there are friction loss tables for standard weight steel pipe. Use the graph for standard Schedule 40 pipe."Īs far as I can tell, this chapter and graph does not exist in the current NCEES handbook. The solution to problem 61 makes several incorrect statements about the NCEES handbook: "Navigate to the Pipe Sizing chapter and find the graph that plots Head Loss as a function of flow rate and pipe size. This was just a unit conversion to get you exposed to the other common way W is presentedĤ. Now you have relative humidity so use this equation. The enthalpy values and wet bulb values line up pretty well. The enthalpy of 20.3 F air at saturation = 7.206 Btu/lbm The enthalpy of 30 F air at dry air = 7.206 Btu/lbm The way you can do this is with the Psych Table. There is an equation for this, but it isn't presented in the handbook. The key is to find the relative humidity. [This actually is a trick and I wanted people to be able to use the psych table. Solutions will use data that cannot be found or derived accurately using the handbook, such as the humidity ratio of 30F db / 27F wb air. I also use 1.08 in my work, however using this coefficient will result in wrong answers in the official NCEES practice test. In the sensible heat gain formula at standard conditions, NCEES uses a coefficient of 1.1, while your exam uses 1.08. The exam uses nomenclature and formulas that deviate from the handbook. The solutions rarely if ever reference specific locations in the PE Handbook. But you can also just email me and I can quickly provide to you the reference in the handbook.ġ. Here is a recent email I received from someone about a similar issue and my response in brackets. But I still think it is important that you understand the concepts behind the sizing of an expansion tank. There are certain equations that can't be found in the NCEES Mechanical Reference Handbook like the expansion tank equation.
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