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Programa - O que você aprenderá com este curso

Semana
1
1 hora para concluir

This section of the course will provide you with an overview of the course, an outline of the topics covered, as well as instructor comments about the Fundamentals of Engineering Exam and reference handbook.

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3 vídeos ((Total 20 mín.)), 3 leituras
3 videos
Reference Handbook13min
3 leituras
Course Syllabus10min
Consent Form10min
Get More from Georgia Tech10min
Semana
2
3 horas para concluir

Mathematics

This module reviews the basic principles of mathematics covered in the FE Exam. We first review the equations and characteristics of straight lines, then classify polynomial equations, define quadric surfaces and conics, and trigonometric identities and areas. In algebra we define complex numbers and logarithms, and show how to manipulate matrices and determinants. Basic properties of vectors with their manipulations and identities are presented. The discussion of series includes arithmetic and geometric progressions and Taylor and Maclaurin series. Calculus begins with definitions of derivatives and gives some standard forms and computation of critical points of curves, then presents grad, del and curl operators on scalar and vector functions. Differential equations are calcified and to methods to solve linear, homogenous equations are presented. Fourier series and transforms are defined along with standard forms, and finally Laplace transforms and their inverse are discussed. In all cases, basic ideas and equations are presented along with sample problems that illustrate the major ideas and provide practice on expected exam questions.Time: Approximately 4.5 hours | Difficulty Level: Medium

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15 vídeos ((Total 123 mín.)), 2 leituras, 1 teste
15 videos
Analytic Geometry and Trigonometry: Polynomials and Conics9min
Analytic and Geometry and Trigonometry: Trigonometry7min
Algebra and Linear Algebra: Complex numbers and logarithms5min
Algebra and Linear Algebra: Matrices and determinants7min
Vectors: Basic Definitions and operations13min
Vectors: Examples8min
Series: Arithmetic and geometric progressions 10min
Calculus: Derivatives and curvature10min
Calculus: Integration5min
DifferentialEq: Classification6min
DifferentialEq: Solutions7min
DifferentialEq: Fourier series7min
DifferentialEq: Laplace7min
2 leituras
Learning Objectives10min
1 exercício prático
Mathematics Supplemental Questions34min
Semana
3
2 horas para concluir

Probability and Statistics

This module reviews the basic principles of probability and statistics covered in the FE Exam. We first review some basic parameters and definitions in statistics, such as mean and dispersion properties followed by computation of permutations and combinations. We then give the definitions of probability and the laws governing it and apply Bayes theorem. We study probability distributions and cumulative functions, and learn how to compute an expected value. Particular probability distributions covered are the binomial distribution, applied to discrete binary events, and the normal, or Gaussian, distribution. We show the meaning of confidence levels and intervals and how to use and apply them. We define and apply the central limit theorem to sampling problems and brieflyt- and c2. We define hypothesis testing and show how to apply it to random data. Finally, we show how to apply linear regression estimates to data and estimate the degree of fit including correlation coefficients and variances.In all cases, basic ideas and equations are presented along with sample problems that illustrate the major ideas and provide practice on expected exam questions. Time: Approximately 3 hours | Difficulty Level: Medium

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13 vídeos ((Total 91 mín.)), 1 leitura, 1 teste
13 videos
Permutation and Combinations8min
Probability: Laws and Examples7min
Probability: Bayes Theorem4min
Probability Distributions: Density Functions8min
Probability Distributions: Expected Values3min
Probability Distributions:Binomial Distribution7min
Probability Distributions:Normal Distribution6min
Probability Distributions:Central Limit Theorem5min
Probability Distributions:Other Distributions1min
Confidence Levels6min
Hypothesis Testing7min
Linear Regression13min
1 leituras
Learning Objectives10min
1 exercício prático
Probability and Statistics Supplemental Questions28min
Semana
4
3 horas para concluir

Statics

This module reviews the principles of statics: Forces and moments on rigid bodies that are in equilibrium. We first discuss Newton’s laws and basic concepts of what is a force, vectors, and the dimensions and units involved. Then we consider systems of forces and how to compute their resultants. We discuss the main characteristics of vectors and how to manipulate them. Then the meaning and computation of moments and couples. We discuss the concept of equilibrium of a rigid body and the categories of equilibrium in two dimensions. We show how to draw a meaningful free body diagram with different types of supports. Then how to analyze pulleys and compute static friction forces and solve problems involving friction. The concept and major characteristics of trusses are discussed, especially simple trusses, and we show how to analyze them by the method of joints and the method of sections. Finally, we analyze the geometrical properties of lines, areas, and volumes that are important in statics and mechanics of materials. These are moments of inertia, centroids, and polar moments of inertia of simple and composite objects. In all cases, basic ideas and equations are presented along with sample problems that illustrate the major ideas and provide practice on expected exam questions.Time: Approximately 3 hours | Difficulty Level: Medium

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9 vídeos ((Total 150 mín.)), 1 leitura, 1 teste
9 videos
Basic Concepts Continued13min
Moments and Couples16min
Equilibrium22min
Equilibrium Examples30min
Trusses15min
Trusses Method of Sections12min
Centroids and Moments of Inertia18min
Centroids and Moments of Inertia Continued10min
1 leituras
Statics10min
1 exercício prático
Statics Supplemental Questions30min
Semana
5
4 horas para concluir

Mechanics of Materials

This module reviews the principles of the mechanics of deformable bodies. We first review the basic concepts of equilibrium and stresses and strains in prismatic bars under axial loading. Then we discuss the major mechanical properties of common engineering materials, particularly the diagrams for normal stress and strain leading to Hooke’s Law, and their relation to lateral strain through Poisson’s ratio. Shear stresses and their relation to shear strains are then presented. We then analyze in detail deformations and stresses in axially loaded members. This includes uniform and nonuniform loading for statically determinate and indeterminate structures. Thermal effects are then considered: expansion and contraction under temperature changes and the stresses that may develop both with and without prestresses. Stresses on inclined planes under axial loadings and the resulting maximum and minimum normal and shear stresses that result are then discussed. Torsion, the twisting of circular rods and shafts by applied torques is then analyzed. We show how to calculate the angle of twist and shear stress as functions of rod properties and shape under uniform and nonuniform torsion. Applications to power transmission by rotating shafts are presented. We then discuss how shear forces and bending moments arise in beams subject to various loading types and how to calculate them. This is then generalized to local forms of the equilibrium equations leading to rules for drawing shear force and bending moment diagrams. Finally, we compute bending stresses in beams. Strains due to bending and their relation to curvature are first discussed. This is used to compute the bending stresses and their relation to the applied bending moment and beam material and cross sectional properties. This includes a review of computation of centroids and moments of inertia of various areal shapes. We complete this module with a discussion how shear stresses arise in beams subject to nonuniform bending and how to compute them. In all cases, basic ideas and equations are presented along with sample problems that illustrate the major ideas and provide practice on expected exam questions. Time: Approximately 4 hours | Difficulty Level: Medium

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14 vídeos ((Total 188 mín.)), 2 leituras, 1 teste
14 videos
Stresses and Strains: Mechanical Properties 13min
Stresses and Strains: Shear Stress 13min
Torsion: Circular Bars in Pure Torsion19min
Torsion: Nonuniform Torsion and Power 16min
Shear Force and Bending Moments: Introduction to Bending of Beams17min
Shear Force and Bending Moments: Shear force and Bending Moment Diagrams 18min
Stresses in Beams: Strains in Pure and Nonuniform Bending12min
Stresses in Beams: Strains in Pure and Nonuniform Bending (continued)4min
Stresses in Beams: Stresses, Moment-Curvature Equation, and Geometric Properties10min
Stresses in Beams: Digression (Centroids and Moments of Areas)4min
2 leituras
Learning Objectives10min
1 exercício prático
Mechanics of Materials Supplemental Questions38min
Semana
6
4 horas para concluir

Fluid Mechanics

This module reviews the basic principles of fluid mechanics particularly the topics covered in the FE Exam. It first discusses what a fluid is and how it is distinguished from a solid, basic characteristics of liquids and gases, and concepts of normal and shear forces and stresses. The major fluid properties are then discussed. Next fluid statics are addressed: pressure variation in homogeneous and stratified fluids and application to manometers; forces on submerged plane surfaces and buoyancy forces on fully and partially submerged objects.Flowing fluids are then covered. This includes the equations for conservation of mass (the continuity equation) and energy (the Bernoulli equation). These are then applied to velocity and flow measuring devices: the Pitot tube, and Venturi and orifice meters.The final topic is similitude and dimensional analysis. This includes concepts of fundamental dimensions and dimensional homogeneity, the Buckingham Pi theorem of dimensional analysis, and the conditions for complete similitude between a full-scale prototype flow situation and a small scale model.In all cases, basic ideas and equations are presented along with sample problems that illustrate the major ideas and provide practice on expected exam questions.Time: Approximately 6 hours | Difficulty Level: Medium

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19 vídeos ((Total 190 mín.)), 1 leitura, 1 teste
19 videos
Fluid Properties-Density and Pressure10min
Fluid Properties-Stresses Viscosity15min
Fluid Properties-Surface tension10min
Fluid Properties-Units and other properties4min
Fluid Statics- Introduction and Pressure Variation12min
Fluid Statics-Application to manometers and barometers14min
Fluid Statics-Forces on submerged plane surfaces10min
Fluid Statics-Forces on submerged plane surfaces continued9min
Fluid Statics-Buoyancy and stability9min
Continuity and Energy Equations: Continuity and mass conservation7min
Continuity and Energy Equations: Energy equation9min
Continuity and Energy Equations: Energy equation examples9min
Flow Measurement-Pilot tubes10min
Flow Measurement-Venturi meter4min
Flow Measurement-Orifice meter9min
Flow Measurement-Dimensions and units, Pi theorem12min
Flow Measurement-Similitude9min
Flow Measurement-Similitude examples13min
1 leituras
Fluid Mechanics10min
1 exercício prático
Fluid Mechanics Supplemental Questions32min
Semana
7
3 horas para concluir

Hydraulics and Hydrologic Systems

This module applies basic principles of fluid mechanics to practical problems in hydraulics, hydrology, and groundwater flow. We first discuss the generalized and one-dimensional momentum theorem and apply it to various typical problems. Flow in pipes and non-circular conduits is discussed beginning with the Bernoulli equation accounting for energy losses and gains. Calculation of head loss due to friction and minor losses due to valves and other accoutrements are presented. Friction losses are calculated for laminar Poiseuille flow and turbulent flow using the Moody chart; examples include computation of pressure drop in laminar pipe flow and turbulent water flow. Methods to calculate flow in pipe networks consisting of multiple connecting pipes and other fittings is then discussed with examples for parallel pipes. Pipes and turbines are then discussed along with their basic equations and definitions. Characteristic curves, especially of centrifugal pumps, are presented and it is shown how to match a pump to a system head.Flow in open channels are discussed including classification of flow types and prediction of uniform flow by the Manning equation. The use of specific energy concepts to solve gradually varying flows, and the importance of the Froude number and sub and supercritical flows are presented. Predictions of hydraulic jumps and flow over weirs are given.Hydrological principles include predictions of surface runoff by the curve number method and peak runoff by the rational formula. Groundwater principles include Darcy’s law for flow through porous media and prediction of drawdown by wells in confined and unconfined aquifers by the Dupuit and Thiem equations.In all cases, basic ideas and equations are presented along with sample problems that illustrate the major ideas and provide practice on expected exam questions.Time: Approximately 3 hours | Difficulty Level: Medium

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12 vídeos ((Total 120 mín.)), 1 leitura, 1 teste
12 videos
Momentum Theorem Continued15min
Flowin Pipesand Conducts12min
Flow in Pipes10min
Flow in Pipes Continued9min
Pumps and Turbines6min
Pumps and Turbines Continued11min
Flow in Open Channels10min
Flow in Open Channels Continued13min
Hydrology5min
Groundwater5min
Groundwater Continued7min
1 leituras
Hydraulics and Hydrological Systems10min
1 exercício prático
Hydraulics Hydrology Supplemental Questions30min
Semana
8
2 horas para concluir

Structural Analysis

This module reviews basic principles of the structural analysis of trusses and beams. It builds on material covered in Statics (Module 6) and Mechanics of Materials (Module 8). We first review the conditions for static equilibrium, then apply them to simple trusses and beams. We then consider the deflections of beams under various types of loadings and supports. We derive the differential equations that govern the deflected shapes of beams and present their boundary conditions. We show how to solve the equations for a particular case and present other solutions. The method of superposition and its application to predicting beam deflection and slope under more complex loadings is then discussed. Finally the conditions for static determinacy and indeterminacy are presented along with example applications to trusses and beams. In all cases, basic ideas and equations are presented along with sample problems that illustrate the major ideas and provide practice on expected exam questions.Time: Approximately 2.5 hours | Difficulty Level: Medium

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8 vídeos ((Total 91 mín.)), 2 leituras, 1 teste
8 videos
Static Review: Trusses 15min
Static Review: Beams 13min
Beam Deflections: Differential Equations 7min
Beam Deflections: Solutions to Differential Equations 10min
Beam Deflections: Examples12min
Beam Deflections: Methods of Superposition 7min
Static Determinacy: Trusses and Beams11min
2 leituras
Structural Analysis10min
Where to go from here10min
1 exercício prático
Structural Analysis Supplemental Questions26min
4.7
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Principais avaliações do Fundamentos da Engenharia - Revisão

por AKApr 17th 2016

This course was a good refresher which hit a lot of topics covered on the FE exam. I supplemented this course with some reference books and the NCEES manual and I was able to pass the FE Exam.

por TJJan 3rd 2017

Its a good way to start studying for the FE exam, but you will need to get a book with all the FE topics to study with as well.

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