Civil Engineering Review Schedule for May 2019 LECE


ATLAS-CPED Review Center is pleased to announce the review schedule for the MAY 2019 Civil Engineering Licensure Examinations. Please check schedule below:


Course Review Fee will be as follows:
Note: Reservation Fee is non-refundable. All fees charged will be refunded once reviewee places in the Top Ten.

Our Review Specialists are all Civil Engineering Board Exams TOPNOTCHERS and TOPNOTCH College Professors!!!

Engr. Mary Joy G. Arita
7th placer, May 2017 LECE (92.75%)
BSCE, PLM

Engr. Kyle Emmanuel R. Murillo
9th placer, May 2015 LECE (90.25%)
BSCE, Mapua University

Engr. Edward G. Tirao
8th placer, Nov. 2013 LECE (95.55%)
BSCE, University of Batangas


For more info, pls contact Ms. Aiza at 02-3749851 or text/call cellphone no. 0917-8018531.

Please register below for the Course:



The practice of civil engineering within the meaning and intent of RA 544 shall embrace services in the form of consultation, design, preparation of plans, specifications, estimates, erection, installation and supervision of the construction of streets, bridges, highways, railroads, airports and hangars, portworks, canals, river and shore improvements, lighthouses, and dry docks; buildings, fixed structures for irrigation, flood protection, drainage, water supply and sewerage works; demolition of permanent structures; and tunnels. The enumeration of any work in this section shall not be construed as excluding any other work requiring civil engineering knowledge and application.

THE CIVIL ENGINEERING LICENSURE EXAMINATION SYLLABI

 Section 4 of the Civil Engineering Law (Republic Act 544) provides among other things the power to the Board of Examinees for Civil Engineers to discharge such other powers and duties as may affect the ethical and technological standards of the Civil Engineering profession in the Philippines.  Section 10 enumerates the subjects in which the applicants for certificates of registration shall be examined at the discretion of the Board;

NOW THEREFORE, the Board of Civil Engineering, RESOLVED, as it hereby RESOLVES, that the licensure examinations for Civil Engineering shall be in accord with the following guidelines:

I.  PREPARATION OF EXAMINATION QUESTIONS AND PROBLEMS.

The following shall be taken into consideration n the preparation of questions and problems:

a. The areas covered by the examination shall be those included in the topics enumerated in the syllabus for the particular subject.  The examination questions in each subject shall be comprehensive and well balanced in scope.
b. Questions and answers should relate to matters which are of general applicability in the civil engineering practice in the Philippines.
c. Questions and answers shall be framed in  a clear and concise manner taking into consideration the degree or level of proficiency for each topic.  Instructions or requirements should be clearly stated.
d. The assigned weight and estimated time for each subject shall be indicated.

Whenever applicable, references shall be made to statements issued by:

a.  The Board of Civil Engineering
b.  The National Building Code of the Philippines
c.  The National Structural Code of the Philippines
d. The National Standards Office
e. The National Water Resources Council
f.  The Philippine Institute of Civil Engineers
g. The Associate of Structural Engineers of the Philippines

In areas not covered by Philippine sources, references may also be made to the official

Pronouncement of authoritative standard setting agencies in the United States (ACI, ASCE, ASHTO, NSC, UBC), International Building Officials (IBO), and the International Federation of Engineers (FIDIC) provided these pronouncements are relevant to Philippines conditions.

e. Electronic and scientific calculators are allowed.  However, programmable calculators and pocket personal computers are not allowed and will be confiscated if brought to the examination room.

II. SUBJECTS OF EXAMINATIONS
Unless otherwise indicated, the topics of the subjects shall be effective in the May 1993 Licensure Examinations.  The Syllabi shall be fully effective starting on the May 1994 examinations.

A.  MATHEMATICS, SURVEYING & TRANSPORTATION ENGINEERING

Mathematics:

1.00    Algebra
1.01    Set Theory*
1.02    Real Numbers
1.03    Algebraic Expressions and Operations
1.04    Equations and Inequalities
1.05   Roots and Powers
1.06    Linear, Quadratic and Polynomial Functions
1.07    Factoring
1.08    Roots of Algebraic Equations
1.09    System of Equations
1.10    Logarithmic and Exponential Function
1.11    Arithmetic and Geometric Progressions

2.00    Trigonometry
2.01    Circular (Trigonometric) Functions
2.02    Trigonometric Identities and Equations
2.03    Solution of Triangles
2.04    Hyperbolic Functions

3.00    Analytic Geometry
3.01    Cartesian Coordinate System
3.02    Functions and Relations
3.03    Functions and their Graphs
3.04    Straight Lines
3.05    Conic Sections
3.06    Polar Coordinates
3.07    Transformation of Coordinates
3.08    Parametric Equations

4.00    Calculus
4.01    Differential Equations
4.01.1     Limits and Continuity
4.01.2     Derivatives and Differentiation
4.01.3     Application of Derivatives
4.01.4     The Differential
4.01.5     Partial Derivatives

4.02    Integral Calculus
4.02.1     Theory of Integrals
4.02.2     Integration Methods
4.02.3     Definite Integrals and Applications
4.02.4     Line and Surface Integrals
4.02.5     Multiple Integrals

5.00    Differential Equations
5.01    First Order Differential Equation
5.01.1     Exact Differential Equation
5.01.2     Integrating Factors**
5.01.3     Separable Variables
5.01.4     Homogeneous Differential Equations
5.01.5     Linear Differential Equations
5.01.6     Applications
5.02    Higher Order Differential Equations

6.00    Other Topics
6.01    Infinite Series
6.01.1     Molaurin Series
6.01.2     Taylor Series
6.01.3     Fourier Series
6.02    Complex Variables**
6.03    Vector Analysis
6.04    Matrices*
6.05    Determinants
6.06    Probability and Statistics

7.00    Engineering Economy
7.01    Present Economy Study
7.02    Time-Value Relations
7.03    Selection Among Alternatives
7.03.1     Present Worth Method
7.03.2     Annual Worth Method
7.03.3     Future Worth Method
7.03.4     Internal Rate of Return Method
7.03.5     External Rate of Return Method

Surveying:

1.00    Surveying Concepts
1.01    Uses of Surveys
1.02    Operations in Surveying
1.03    Measurement and Adjustments
1.04    Field and Office Work
1.05    Surveying Instruments

2.00    Basic Surveying Measurements
2.01    Distance Measurements
2.01.1     Pacing
2.01.2     Distance Measurement with Tape
2.02    Vertical Distance Measurement; Leveling
2.03    Angle and Direction Measurement
2.03.1     Location of Points
2.03.2     Meridians
2.03.3     Bearing and Azimuth
2.03.4     Magnetic Declination
2.03.5     Instruments Used
2.03.5.1     Engineers Transit
2.03.5.2     Theodolite
2.04    Stadia and Tacheometry
2.04.1     Principles of Stadia
2.04.2     Plane Table and Alidale

3.00    Survey Operations
3.01    Traverse
3.01.1     Deflection Angle Traverse
3.01.2     Interior Angle Traverse
3.01.3     Traverse by Angle to the Right
3.01.4     Azimuth Traverse
3.01.5     Compass Traverse
3.01.6     Stadia Traverse
3.01.7     Plane Table Traverse
3.02    Calculation of Areas of Land
3.02.1     Area by Triangle
3.02.2     Area by Coordinates
3.02.3     Area by Double Meridian Distance (DMD) and Latitude
3.02.4     Irregular Boundaries (Simpsonís and Trapezoidal Rules)
3.03    Triangulation and Trilateralization
3.03.1     Horizontal Control System
3.03.2     Triangulation Figures and Procedures
3.03.3     Error Propagation
3.03.4     Trilateralization
3.04    Astronomical Observation
3.04.1     Celestial Sphere
3.04.2     Equator System
3.04.3     The PZS Triangle
3.04.4     Azimuth and Hour Angle at Elongation
3.04.5     Time
3.04.6     Solar Observation
3.04.7     Stellar Observation

4.00    Engineering Surveys
4.01    Topographic Surveys
4.01.1     Horizontal Control
4.01.2     Vertical Control (contours)
4.01.3     Location of Details
4.02    Route Surveying
4.02.1     Horizontal Curves
4.02.1.1     Simple Curves
4.02.1.2     Compound Curves
4.02.1.3     Superelations
4.02.1.4     Spiral Curves
4.02.2     Vertical Curves
4.02.3     Earthwork Operations
4.02.3.1     Methods of Determining Earthwork Volumes
4.02.3.2     Borrow Pits
4.03    Hydographic Surveys
4.03.1     Datum
4.03.2     Soundings

Transportation Engineering
1.01    Transportation Engineering**
1.01.1     Highway and Urban Transportation Planning and economics**
1.01.2     Driver, Vehicle, Traffic and Road Characteristics**
1.01.3     Highway Design
1.01.4     Traffic Engineering and Highway Operations**
1.01.5     Road and Pavement Design

B.     HYDRAULICS & GEOTECHNICAL ENGINEERING

Hydraulics
1.00    Fluid Mechanics
1.01    Properties of Fluids
1.02    Fluid Statics
1.03    Fluid Flow Concepts and Basic Equations
1.04    Dimentional Analysis and Dynamic Similitude
1.05    Viscous Flow and Fluid Resistance
1.06    Ideal Fluid Flow
1.07    Steady Flow in Closed Conduits
1.08    Steady Flow in Open Channels

2.00    Hydrology
2.01    Hydrologic Cycle
2.01.1     Precipitation
2.01.2     Streamflow
2.01.3     Evaporations
2.01.4     Transpiration
2.02    Hydrograph Analysis
2.02.1     Runoff
2.02.2     Storage Routing
2.03    Groundwater

3.00    Hydraulics, System and Structure
3.01    Reservoirs
3.02    Dams
3.03    Spillways, Gates, and Outlet Works
3.04    Open Channels
3.05    Pressure Conduits
3.06    Hydraulics Machinery

4.00    Irrigation, Flood Control and Drainage
4.01    Irrigation
4.01.1     Water Requirement
4.01.2     Soil-Water Relation
4.01.3     Water Quality
4.01.4     Methods
4.01.5     Structures
4.02    Flood Control
4.02.1     Design Flood
4.02.2     Flood Control Structures
4.03    Drainage
4.03.1     Estimate of Flow
4.03.2     Storm Drainage
4.03.3     Land and Highway Drainage
4.03.4     Culvets and Bridges
4.03.5     Drainage Structures

5.00    Water Supply and Sewerage
5.01    Fundamental Concept
5.01.1     Mathematics of Growth (Population Forecasting)
5.01.2     Environmental Chemistry
5.01.3     Mass and Energy Transfer
5.02    Water Supply and Treatment
5.02.1     Components of Water Supply System
5.02.2     Water Consumptions Periods of Design
5.02.3     Pre-treatment Methods
5.02.4     Principles of Sedimentation
5.02.5     Sedimentation Tank Design
5.02.6     Coagulation-Sedimentation
5.02.7     Slow Sand Filtration
5.02.8     Rapid Sand Filtration
5.02.9     The Rapid Sand Filter
5.02.10  Underdrain System
5.02.11  Wash Troughs
5.02.12  The Washing Process
5.02.13  Clear Well and Plant Capacity
5.02.14  Water Disinfection
5.03    Waste Water Treatment
5.03.1     Quantity
5.03.2     Methods
5.03.3     Theory of Activated Sludge
5.03.4     Aration Tank
5.03.5     Biokinetic Parameters*
5.03.6     Clarifiers

Geotechnical Engineering
1.00    Soil Mechanics and Foundation
1.01    Soil Properties
1.02    Soil Classification
1.03    Flow of Water in Soils
1.03.1     Permeability
1.03.2     Seepage
1.03.3     Effective and Porewater Pressure
1.04    Soil Strength
1.04.1     Shear Strength
1.04.2     Bearing Capacity
1.05    Compressibility of Soils
1.05.1     Elastic Settlement
1.05.2     Consolidation Settlement
1.06    Soil Improvement
1.06.1     Compaction
1.06.2     Soil Stabilization
1.07    Earth Pressures and Retaining Wall
1.08    Slope Stability Analysis

C.     STRUCTURAL ENGINEERING  AND CONSTRUCTION

1.00    Statics of Rigid Bodies
1.01    Force System
1.01.1     Concurrent and Non-current Force System
1.01.2     Parallel and Non-parallel Force System
1.01.3     Planar and Three Dimentional Force System
1.01.4     Distributed Forces
1.01.5     Frictional Forces
1.02    Equilibrium of Forces
1.02.1     Reactions
1.02.2     Free Body Diagram
1.02.3     Two Force Bodies
1.02.4     Three Force Bodies
1.03    Truss Analysis
1.03.1     Method of Joints
1.03.2     Method of Sections
1.03.3     Graphical Methods
1.04    Beams and Frames
1.04.1     Reactions
1.04.2     Shear Diagrams
1.04.3     Bending Moment Diagrams
1.05    Related Topics
1.05.1     Moment of Lines and Areas
1.05.2     Centroids
1.05.3     Moments of Inertia
1.05.4     Center of Mass
1.05.5     Center of Forces

2.00    Dynamics of Rigid Bodies
2.01    Kinematics of Particles
2.01.1     Rectilinear Motion
2.01.2     Curvilinear Motion
2.02    Kinetics of Particles
2.02.1     Newtonís Second Law
2.02.2     Dynamic Equilibrium
2.02.3     Work and Energy Principle
2.02.4     Kinetic and Potential Energy
2.02.5     Impulse and Momentum Principle
2.03    Kinematics of Rigid Bodies
2.03.1     Translation
2.03.2     Rotation
2.03.3     General Plane Motion
2.04    Kinetics of Rigid Bodies
2.04.1     DíLambertís Principle
2.04.2     Work and Energy Principle
2.04.3     Impulse and Momentum Principle

3.00    Mechanics
3.01    Stresses and Strains
3.02    Material Properties
3.03    Axially Loaded Members
3.04    Thin Walled Pressure Vessels
3.05    Torsional Stresses
3.06    Internal Forces and Stresses in Beams
3.06.1     Flxexural Stress
3.06.2     Shear Stress
3.06.3     Combined Stresses
3.06.4     Principal Stresses
3.06.5     Unsymetrical Banding
3.07    Deflections
3.07.1     Double Integration Methods
3.07.2     Area Moment Method
3.07.3     Conjugate Beam Method
3.08    Statistically Indetermine Beams
3.09    Shear Center
3.10    Curved Beams
3.11    Nonhomogenous Beams
3.12    Impact Loading
3.13    Stress Concentration
3.14    Repeated Loading
3.15    Elastic Instability (Buckling)
3.16    Analysis of Connections
3.16.1     Riveted and Bolted Connections
3.16.2     Welded

4.00    Structural Analysis
4.01    Loadings
4.01.1     Verical Loads (dead and live loads)
4.01.2     Lateral Loads (Wind and Earthquake Loads)
4.01.3     Impact Loads
4.02    Energy Methods for Deformation Analysis
4.02.1     Castiglianoís Theorem
4.02.2     Virtual Work Method (Unit Load)
4.03    Influence Lines
4.04    Frame Analysis
4.04.1     Approximate Methods
4.04.2     Exact Methods*
4.04.3     Moment Distribution
4.05    Stiffness and Flexibility Methods of Analysis**
4.05.1     Trusses
4.05.2     Beams
4.05.3     Frames

5.00    Design of Timber Structures
5.01    Properties of Wood
5.02    Design of Tension Member
5.03    Design of Bending Members
5.03.1     Laterally Supported Beams
5.03.2     Laterally Unsupported Beams
5.04    Design of Compression Members
5.04.1     Short Columns
5.04.2     Slender Columns
5.04.3     Spaced Columns
5.05    Timber Connections

6.00    Design of Steel Structures
6.01    General
6.02    Tension Members
6.03    Connections
6.03.1     Bolted
6.03.2     Welded
6.04    Compression Members
6.05    Beams
6.05.1     Compact Sections
6.05.2     Non-compact Sections
6.06    Beam Columns
6.07    Plastic Analysis and Limit Design*
6.08    Composite Steel and Concrete

7.00    Reinforced Concrete Structures
7.01    General
7.01.1     Properties of Concrete Materials
7.01.2     Design Philosophies and Procedures
7.02    Flexural Analysis and Design
7.03    Shear and Diagonal Tension
7.04    Bond, Anchorage Development Lengths
7.05    Serviceability Requirements
7.05.1     Crack Control
7.05.2     Deflections
7.06    Columns
7.06.1     Short Columns
7.06.2     Slender Columns
7.07    Slabs
7.08    Footings
7.09    Retaining Wall
7.10    Prestressed Concrete

8.00    Design of  Civil Engineering Structures and Systems
8.01    Airport Engineering**
8.02    Ports and Harbors
8.03    Containment Structures (Tanks, soils, storage tanks)
8.04    Bridges

9.00    Construction and Management
9.01    Engineering Relations and Ethics**
9.02    Contracts & Specifications
9.03    Construction Project Organization
9.04    Planning and Scheduling (PERT /CPM)
9.05    Construction Estimates
9.06    Construction Methods & Operations
9.07    Construction Equipment Operations and Maintenance

III.  CONDUCT OF THE EXAMINATIONS

Unless otherwise officially announced, the examinations shall be totally computerized.

The Board shall provide a minimum of 500 questions for each subject from which the computer of the Commission will select at random on the day or a few days prior to the examination the questions to be given.  The number of questions for each subject shall not be less than 20 at 4 points each.  The maximum number of questions shall not be more than 100 at 1 point each.

The examination shall be closed books and notes.  Examinees shall be given 10 computation and scratch sheets which must be submitted with the answer sheets.

IV.  CHANGES IN THE SYLLABI

The Syllabi can be changed from time to time only with the introduction of the new

Methods and technology in civil engineering but not more than once every three years.


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