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Fundamentals of Engineering Exam Review

Approx. 22 hours to complete

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Course Summary

Prepare for the FE exam with this comprehensive online course. Learn the skills you need to pass the Fundamentals of Engineering exam and become a professional engineer.

Key Learning Points

Access to over 300 practice problems and solutions
Interactive review sessions with expert instructors
Realistic exam simulations to prepare you for test day

Job Positions & Salaries of people who have taken this course might have

- USA: $58,000
- India: ₹5,00,000
- Spain: €24,000
- USA: $58,000
- India: ₹5,00,000
- Spain: €24,000
- USA: $42,000
- India: ₹3,50,000
- Spain: €18,000
- USA: $58,000
- India: ₹5,00,000
- Spain: €24,000
- USA: $42,000
- India: ₹3,50,000
- Spain: €18,000
- USA: $74,000
- India: ₹6,50,000
- Spain: €30,000

Learning Outcomes

Gain the knowledge and skills needed to pass the FE exam
Be prepared for a career as a professional engineer
Develop problem-solving and critical thinking skills

Prerequisites or good to have knowledge before taking this course

Bachelor's degree in engineering or related field
Basic knowledge of mathematics and science

Course Difficulty Level

Intermediate

Course Format

Online
Self-paced
Interactive

Similar Courses

PE Exam Review Course
Engineering Ethics

Related Education Paths

Professional Engineer Certification

Notable People in This Field

National Society of Professional Engineers
American Society of Civil Engineers

Related Books

Description

The purpose of this course is to review the material covered in the Fundamentals of Engineering (FE) exam to enable the student to pass it. It will be presented in modules corresponding to the FE topics, particularly those in Civil and Mechanical Engineering. Each module will review main concepts, illustrate them with examples, and provide extensive practice problems.

Outline

ABOUT THIS COURSE
Welcome!
Overview comments
Reference Handbook
Course Syllabus
Consent Form
Get More from Georgia Tech

Mathematics
Analytic Geometry and Trigonometry: Straight Lines
Analytic Geometry and Trigonometry: Polynomials and Conics
Analytic and Geometry and Trigonometry: Trigonometry
Algebra and Linear Algebra: Complex numbers and logarithms
Algebra and Linear Algebra: Matrices and determinants
Vectors: Basic Definitions and operations
Vectors: Examples
Series: Arithmetic and geometric progressions
Calculus: Derivatives and curvature
Calculus: Integration
Calculus: Gradient, divergence and curl
DifferentialEq: Classification
DifferentialEq: Solutions
DifferentialEq: Fourier series
DifferentialEq: Laplace
Learning Objectives
Earn a Georgia Tech Badge/Certificate/CEUs
Mathematics Supplemental Questions

Probability and Statistics
Basic Parameters
Permutation and Combinations
Probability: Laws and Examples
Probability: Bayes Theorem
Probability Distributions: Density Functions
Probability Distributions: Expected Values
Probability Distributions:Binomial Distribution
Probability Distributions:Normal Distribution
Probability Distributions:Central Limit Theorem
Probability Distributions:Other Distributions
Confidence Levels
Hypothesis Testing
Linear Regression
Learning Objectives
Probability and Statistics Supplemental Questions

Statics
Basic Concepts
Basic Concepts Continued
Moments and Couples
Equilibrium
Equilibrium Examples
Trusses
Trusses Method of Sections
Centroids and Moments of Inertia
Centroids and Moments of Inertia Continued
Statics
Statics Supplemental Questions

Mechanics of Materials
Stresses and Strains: Introduction
Stresses and Strains: Mechanical Properties
Stresses and Strains: Shear Stress
Axial Loadings: Axial Loaded Members
Axial Loadings: Statically Indeterminate Structures
Axial Loadings: Thermal Effects and Stresses on Inclined Surfaces
Torsion: Circular Bars in Pure Torsion
Torsion: Nonuniform Torsion and Power
Shear Force and Bending Moments: Introduction to Bending of Beams
Shear Force and Bending Moments: Shear force and Bending Moment Diagrams
Stresses in Beams: Strains in Pure and Nonuniform Bending
Stresses in Beams: Strains in Pure and Nonuniform Bending (continued)
Stresses in Beams: Stresses, Moment-Curvature Equation, and Geometric Properties
Stresses in Beams: Digression (Centroids and Moments of Areas)
Learning Objectives
Earn a Georgia Tech Badge/Certificate/CEUs
Mechanics of Materials Supplemental Questions

Fluid Mechanics
Fluid Properties- Introduction
Fluid Properties-Density and Pressure
Fluid Properties-Stresses Viscosity
Fluid Properties-Surface tension
Fluid Properties-Units and other properties
Fluid Statics- Introduction and Pressure Variation
Fluid Statics-Application to manometers and barometers
Fluid Statics-Forces on submerged plane surfaces
Fluid Statics-Forces on submerged plane surfaces continued
Fluid Statics-Buoyancy and stability
Continuity and Energy Equations: Continuity and mass conservation
Continuity and Energy Equations: Energy equation
Continuity and Energy Equations: Energy equation examples
Flow Measurement-Pilot tubes
Flow Measurement-Venturi meter
Flow Measurement-Orifice meter
Flow Measurement-Dimensions and units, Pi theorem
Flow Measurement-Similitude
Flow Measurement-Similitude examples
Fluid Mechanics
Fluid Mechanics Supplemental Questions

Hydraulics and Hydrologic Systems
Momentum Theorem
Momentum Theorem Continued
Flowin Pipesand Conducts
Flow in Pipes
Flow in Pipes Continued
Pumps and Turbines
Pumps and Turbines Continued
Flow in Open Channels
Flow in Open Channels Continued
Hydrology
Groundwater
Groundwater Continued
Hydraulics and Hydrological Systems
Hydraulics Hydrology Supplemental Questions

Structural Analysis
Static Review: Equilibirum
Static Review: Trusses
Static Review: Beams
Beam Deflections: Differential Equations
Beam Deflections: Solutions to Differential Equations
Beam Deflections: Examples
Beam Deflections: Methods of Superposition
Static Determinacy: Trusses and Beams
Structural Analysis
Where to go from here
Structural Analysis Supplemental Questions

Summary of User Reviews

The FE Exam course on Coursera has received positive reviews from users. Many users found the course to be comprehensive and helpful in preparing for the exam.

Pros from User Reviews

The course is well-structured and easy to follow.
The instructors are knowledgeable and provide clear explanations.
The course material is up-to-date and relevant to the exam.
The practice exams and quizzes are helpful in gauging one's knowledge and progress.
The course provides access to a community of learners and experts.

Cons from User Reviews

The course may be too basic for those with advanced knowledge in the subject.
The course may not be suitable for those who prefer hands-on learning.
The course does not offer much interaction with the instructors.
The course may be too time-consuming for those with busy schedules.
The course may not be worth the price for some users.

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