NOTE: Problems on this study guide are 85% closest thing to what you will see on the actual exam. I compiled it from my own experience. This study guide is for Fundamentals of Engineering (FE) ELECTRICAL AND COMPUTER CBT Exam, also known as EIT. If you want to pass this FE Electrical and Computer exam at one shot, this is the study guide for you. I have compiled all the problems and solutions that I studied to pass this exam.
This study guide contains 38 exact questions and answers from the actual FE EE exam in the first section of the study guide. Please solve it in order. This study guide includes over 1700 problems and solutions and it has 1585 pages. This study guide explains how to solve each problems.
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PROVIDE SER1. Mathematics
A. Algebra and trigonometry
B. Complex numbers
C. Discrete mathematics
D. Analytic geometry
E. Calculus
F. Differential equations
G. Linear algebra
H. Vector analysis
2. Probability and Statistics
A. Measures of central tendencies and dispersions (e.g., mean, mode,
standard deviation)
B. Probability distributions (e.g., discrete, continuous, normal, binomial)
C. Expected value (weighted average) in decision making
D. Estimation for a single mean (e.g., point, confidence intervals,
conditional probability)
3. Ethics and Professional Practice
A. Codes of ethics (professional and technical societies)
B. NCEES Model Law and Model Rules
C. Intellectual property (e.g., copyright, trade secrets, patents)
4. Engineering Economics
A. Time value of money (e.g., present value, future value, annuities)
B. Cost estimation
C. Risk identification
D. Analysis (e.g., cost-benefit, trade-off, breakeven)
5. Properties of Electrical Materials
A. Chemical (e.g., corrosion, ions, diffusion)
B. Electrical (e.g., conductivity, resistivity, permittivity, magnetic
permeability)
C. Mechanical (e.g., piezoelectric, strength)
D. Thermal (e.g., conductivity, expansion)
6. Engineering Sciences
A. Work, energy, power, heat
B. Charge, energy, current, voltage, power
C. Forces (e.g., between charges, on conductors)
D. Work done in moving a charge in an electric field (relationship between
voltage and work)
E. Capacitance
F. Inductance
7. Circuit Analysis (DC and AC Steady State)
A. KCL, KVL
B. Series/parallel equivalent circuits
C. Thevenin and Norton theorems
D. Node and loop analysis
E. Waveform analysis (e.g., RMS, average, frequency, phase, wavelength)
F. Phasors
G. Impedance
8. Linear Systems
A. Frequency/transient response
B. Resonance
C. Laplace transforms
D. Transfer functions
E. 2-port theory
9. Signal Processing
A. Convolution (continuous and discrete)
B. Difference equations
C. Z-transforms
D. Sampling (e.g., aliasing, Nyquist theorem)
E. Analog filters
F. Digital filters
10. Electronics
A. Solid-state fundamentals (e.g., tunneling, diffusion/drift current,
energy bands, doping bands, p-n theory)
B. Discrete devices (diodes, transistors, BJT, CMOS) and models and
their performance
C. Bias circuits
D. Amplifiers (e.g., single-stage/common emitter, differential)
E. Operational amplifiers (ideal, non-ideal)
F. Instrumentation (e.g., measurements, data acquisition, transducers)
G. Power electronics
11. Power
A. Single phase and three phase
B. Transmission and distribution
C. Voltage regulation
D. Transformers
E. Motors and generators
F. Power factor (pf)
12. Electromagnetics
A. Maxwell equations
B. Electrostatics/magnetostatics (e.g., measurement of spatial relationships,
vector analysis)
C. Wave propagation
D. Transmission lines (high frequency)
E. Electromagnetic compatibility
13. Control Systems
A. Block diagrams (feed-forward, feedback)
B. Bode plots
C. Closed-loop and open-loop response
D. Controller performance (gain, PID), steady-state errors
E. Root locus
F. Stability
G. State variables
14. Communications
A. Basic modulation/demodulation concepts (e.g., AM, FM, PCM)
B. Fourier transforms/Fourier series
C. Multiplexing (e.g., time division, frequency division)
D. Digital communications
15. Computer Networks
A. Routing and switching
B. Network topologies/frameworks/models
C. Local area networks
16. Digital Systems
A. Number systems
B. Boolean logic
C. Logic gates and circuits
D. Logic minimization (e.g., SOP, POS, Karnaugh maps)
E. Flip-flops and counters
F. Programmable logic devices and gate arrays
G. State machine design
H. Data path/controller design
I. Timing (diagrams, asynchronous inputs, races, hazards)
17. Computer Systems
A. Architecture (e.g., pipelining, cache memory)
B. Microprocessors
C. Memory technology and systems
D. Interfacing
18. Software Development
A. Algorithms
B. Data structures
C. Software design methods (structured, object-oriented)
D. Software implementation (e.g., procedural, scripting languages)
E. Software testing