7-10. Retaining walls—soil pressure and Types of retaining walls Design of Bearing Wall
Modes of Failure in Retaining Wall Design of Cantilever in Retaining Wall Design of an L shaped in retaining Wall Set Problem 4-6
Quiz No. 3
11. Footing for Buildings—Structural design for wall footing, structural design for combined footing,
12. MIDTERM EXAMINATION
13-15. Design of Wall footing with axial load &bending moment
Design of rectangular combined footing supporting tied and spiral column
Set Problem 7-8 Quiz No. 4
Design of rectangular combined footing supporting two tied column Design of rectangular combined footing supporting wall and tied column Set Problem 9-10
Quiz No. 5
16. Structural design for pile footing (Footing on Piles)
Structural design for pile footing, structural design for raft foundation Bridge Piers—Method of constructions, drilled Piles
Bridge abutments—Columns and retaining walls actions, anchorage Set Problem 11
17. Flexible earth- Retaining structures—Behavior of flexible earth- retaining structures, tie back bracing systems.
Set Problem 12 Quiz No. 6 18. Final Examinations
Prepared by
Engr. Tomas U. Ganiron, Jr.MSCE Chairperson, CE and Drawing Dept.
Civil Engineering and Drawing Department Feati University
Manila, Philippines
Course Syllabus for CE 56 Title: CE laws, contract specification and ethics.
Units: 3 units (3hrs lecture per week) Pre-requisite: 5th yr standing
Course Description: study of code of ethics, legal procedure in the practice of Civil Engineers in the Philippines, ethical relations of an engineer with fellow professionals, clients, and obligations, specs, CE laws, national Building code and labor laws.
Course Objectives: At the end of the course, the student should be able to:
1. Appreciate the importance of the code of ethics, CE laws and specs, national Building code, and labor laws in the practice of CE laws in the Philippines.
2. Understand the legal procedure in the practice of civil engineering in the Philippines, relation of an engineer with professional clients, and general public
3. Develop, design and construct a specs for CE works.
4. To know the different types of contract and its elements.
Course Outline:
1. Orientation
2. Professional and ethical relations—Limitation of enacted law, formation of individual principles, specs of a man, Code of professional ethics, Canon of ethics for Engineers, Application of ethics.
3. Legal Procedure in the practice of CE in the Philippine ethical relation—
Relation to the general public, relation to the profession and engineering society, relationship to clients and employer, relationship with engineer.
4. Legal Relation, rights and responsibilities of technical men—Employment in general Professional Employment, the engineer of an agent and arbiter, The engineering legal proceeding.
5. Elements of contract—Classification of contract, essential of a contract, competency of contracting parties, agency, mutual agreement, There must be a lawful and sufficient valuable, subject matter of a contract must be lawful and not contrary to small policy, legal requirements as to from penalties, and liquidated damages, discharge of contracts, remedies for breach of contract preparing the contract.
6. Preliminary Examination
7. Obligation—Requisites of an obligation, sources of an obligation, arising from how contract, quasi contract, crime and quasi delete, kinds of obligation, modes of extinguishing obligation, modes of extinguishing obligation
8. Specification—Specification definition, Technical specs, material\
process Machinery. design and specs, for civil works.
9. Civil Engineering Law of the Philippines—PD 544, Qualification of the members of the board of examiner, qualification of admission from
registration, Panel Provision, power and duties of the board, the CE board examiner, and duties of Philippines Institute of Civil Engineers Inc.
(PICE).
10. National Building Code of the Philippines--- PD 1096 General Provision, Administration and Enforcement, Permits and Inspection, Types of
construction, Classification and general requirement of all building be use
or occupancy, light and ventilation, Sanitation, Building projection and demolition, General Design and construction requirements.
11. Labor Code of The Philippines 12. Final Examination
Course Requirements:
1. Regular Attendance
2. Seatwork, Quizzes, and assignments 3. Major Exams
4. Oral and written report given by the Professor
Reference:
1. Eng’g Ethics by: Charles Fledderman, 199 Ed.
2. Eng’g Contract, Specs, and Ethics by: Mendoza 1995 3. The National Building Code of The Philippines, 1997 4. Civil Engineering Laws in the Philippines by the PRC
Prepared by
Engr. Tomas U. Ganiron, Jr.MSCE Chairperson, CE and Drawing Dept.
Civil Engineering and Drawing Department Feati University
Manila, Philippines
Course Syllabus for CE 57 laboratory (On the Job Training)
2. All CE 57 students are required to undergo at least 80 hours of OJT in a chosen Industry or company as requirement for graduation. A credit of 1.5 units shall be given for every 80 hours of complete each group shall have at least 4 members.
3. Each group shall be required to submit to their head, CE dept. the practicum proposal, schedule of work (form), waiver form, letter of application
addressed
to company concerned.
3. The practicum proposal shall include the ff.:
d. Information on the student
e. Listing of companies where the students is planning to undertake the practicum
f. Types of special project (written report) to be undertaken in the company.
4. A listing of Industries with formal linkages with the schools in the
consortium shall be provided to the CE student to assist them in making the proposal.
5. Upon acceptance by the company, the professor in the laboratory shall be responsible for:
a. Monitoring the performance of the student undergoing the OJT in cooperation with the counterpart company coordinator.
b. Assisting the student in preparing his/ her special projects
c. Given a written final grade the student together with the company coordinator.
d. Giving expert support to the student during the special project.
Civil Engineering and Drawing Department Feati University
Manila, Philippines
Course Syllabus for CE 58 General Guidelines (Thesis Writing) Procedures and guidelines
1. The writing of an acceptable thesis is required to all candidates of BSCE 2. Each group shall have at least 4 members and may select their own thesis
areas of specialization in consultation with their adviser and Head CE dept.
3. The Major areas of CE namely:
a. Structural eng’g—This Includes rational and applied mechanics, masonry structures, wooden RC structures, bridges, towers, and walls.
b. Highway and Transportation Eng’g—Includes highways, railroad surveying, design and construction of highways and railroads, piers, dikes, ports and wharves.
c. Hydraulics—Includes aqueducts, sanitary eng’g works, hydrology, water supply systems, dikes, dams, irrigation, and drainage canals.
d. Construction management—Includes construction process methods, systematic plant selection planning, estimates and control project organization contract administration and safety eng’g.
4. All subjects of investigation and research are to be approved by the CE head dept. upon recommendation from the adviser.
5. Every group contemplating to begin writing their thesis may request the Head CE dept., to appoint a supervising thesis committee (panel of Examiners) to guide the candidate in the preparation and writing their thesis.
Civil Engineering and Drawing Department Feati University
Manila, Philippines Course Syllabus for CE 59
Title: Special CE problems for licensure Examination
Course Description: The course deals with the review of recent Civil
Engineering board examination specifically divided into three categories such as hydraulics, design and construction, math and surveying.
Credit Units: 3 units (3 hours lecture per week) Pre-requisite: 5th year standing
Course Requirements:
1. Regular Attendance
2. Seatwork, quizzes, assignments, and exercises based from the lecture Reference:
1. Recent CE Licensure Examination compiled by PRC
2. CE licensure Exam (Computerized Licensure Exam) compiled by Besavilla-1996 Ed.
3. Practical Questions in CE (computerized Licensure Exam) by: Beastlier 4. Hydraulics by Dela Rosa, Dela Fuente and Tempo Jr. 1991 Ed.
5. Structural Analysis by : Arreola
6. Timber Design and Construction method by Bessavilla 7. Fundamentals of Structural steel Design by: Beastlier
8. Mathematics for CE and GE Licensure Examination by: Bessavilla 9. Elementary Surveying by La Putt (2nd Ed.)
10. Higher Surveying by La Putt ( 2nd Ed.)
11. Route Surveying (reviewer) by: Tuazon (SI Ed.) 12. Engineering Mechanics by: Singer
13. Strength of Materials by: Sta. Maria
14. Eng’g Economics by: Sta. Maria
15. Reinforced Concrete Design by Arreola Objectives:
At the end of the course, the student should be able to:
1. Familiar with the nature of actual board problems and the necessary approval in systematic solution
2. Practice them to answer problems independently as if they are actually taking exam proper.
3. Regain momentum in the review of their general Engineering and major subjects as necessary in the actual review in the actual exam.
Course Outline:
Week:
1. Orientation
2. Fluid Mechanics—Boyle’s law, Hydraulics, pressure on the plane and curve surface dams.
3. Archimedes Principle, hoop tension, statically stability of floating bodies.
4. Closed rotating vessels, Venturimeter, pipes with friction loses (pumps and turbines) pipes in series and parallel (pipe network)
5. Reservoir problem, Weirs, open channels (uniform flow and ordinary canals) 6. Most efficient canal section, non-uniform flowing canals, hydrodynamics,
water hammer.
7. Preliminary Examination
8. Design and construction (timber Design) 9. Concrete Design
10. Pre-stressed concrete/steel design 11. Construction methods/foundations 12. Practical Questions
13. Midterm Examination
14. Mathematics and surveying—Algebra, plane and spherical trigonometry 15. Analytic Geometry/calculus
16. Eng’g mechanics
17. Theory of structures/Eng’g Economics 18. Final Examination (Comprehensive Exam) Prepared by:
Engr. Tomas U. Ganiron, Jr. MCE Chairperson, CE and Drawing Dept.
Civil Engineering and Drawing Department Feati University
Manila, Philippines Course Syllabus for EM 500 Title: Engineering Economics for CE
Course Description: Study Basic economics principles, present economy, interest discount, annuities and capitalized cost, arithmetic and geometric gradients, financing and enterprise, depreciation and depletion, valuation of properties, principles of accounting, fundamentals of cost accounting,
investment of capital, comparison of alternatives, classification of cost, replacement of analysis, effects factors of economy and break even analysis.
Credit Units: 3 units (3 hours lecture) Pre-requisite: 5th yr. standing
Course Requirements:
1. Regular Attendance
2. Seatwork, quizzes, assignments
Text Assignment: Engineering Economy (3rd Ed.) By: Matias Arreola Course Outline:
Week
1. Orientation
2. Basic economics principles
Reason for Engineering Economics
Important Applications of Eng’g Economics
Eng’g economics techniques
Tangible and In tangible factors
Competition, Monopoly, Oligopoly
Price and production
Local and National Market
Law of diminishing return
Consumers and producer goods
Law of demand
Elasticity of demand
Utility of demand
Law of diminishing Utility
Marginal Utility 3. Present Economy
Selection of materials, method, design, and site selection
Comparison of proficiency of workers
Economy of tool and equipment maintenance and utilization of personnel
Examples
4. Interest and discount
5. Annuities and capitalized cost 6. Preliminary Examination
7-8.Arithmetic and geometric gradients
Methods of financing
Working capital
Types of Business Organizations
Sole proprietorship
Partnership
Corporation, its danger and its capitalization
Stock
Bonds and classification
Bond amortization retirement
Value of bond
Solved problems
9-10. Depreciation and depletion
Types of depreciation
Depreciation cost
Requirements for depreciation method
The straight line formula
Sinking fund
Matheson formula
Sum of the years digit method
Service output method
Straight line + Ave. Interest formula
The double – rate declining balance method
Assets
Solve problems
11. Principles of accounting
Types of assets
Types of liabilities
Types of ownership
Fundamental Equations of accounting
Balance sheet
Profit and loss statement
Analysis and interpretation of financial statement
Business transactions
Debit and credit
Double entry booking
Journal and its type
Ledger
Solved problems 12. Midterm Examination
13. Fundamental of cost accounting 14. Investment of capital
15-16. Comparison of alternatives
17. Effects factor on economy break even analysis 18. Final Examination
Prepared by:
Engr. Tomas U. Ganiron, Jr. MSCE Chairperson, CE and Drawing Dept.
Civil Engineering and Drawing Department Feati University
Manila, Philippines Course Syllabus for CE 57
Title: Construction Project Management
Course Description: Introduction to Construction Project management, Planning and scheduling, project estimate and specification, contract management, project monitoring and control, construction business licensing and upgrading, Obtaining and evaluating of bids, Auxiliary and research related topics.
General Objectives:
To equip the students with the basic tools necessary for the efficient and effective practice of civil engineering profession, develop student’s sense of responsibility and spirit of cooperation by giving them the task and
responsibilities focus on group works and discussion.
Schedule of lecture:
Week 1-4 (Introduction to Construction Project Management)
Overview of project management, difference between project management and construction management, project management organization, projects
participants, stages of projects, activities of each phase of project, construction process and methods.
Week 5-8 (Planning and scheduling)
Planning Phase, Scheduling phase, control monitor, phase by charts, limitation of bar charts, critical path analysis, budget, and cash flow.
Week 9-12 (Project Estimate and Specifications)
Pre-construction considerations, General Requirements of estimating, ways of developing cost estimate, methods and rules in estimating, composition of summary estimates, contingency specifications.
Week 13-16 (Project Monitoring and control)
Factor Effective control, control cycle, Feedback, project management information system, Monitoring by Gantt, XPM Master Project Scheduler, Resource monitoring, Manpower, Materials, Equipment Utilization.
Week 17 (Contract Management)
Contract management functions, contracting process, contractual role of
project manager, designer, consultants, contractors/suppliers, contract claims, Understanding the basic of contract termination, Termination Process.
Week 18 (The Construction Business, Licensing and upgrading
Registration through Phil. Contractors Assoc. Board (PCAB), Gen. Requirement for regulation, construction classification and category, renewal of license, upgrading of classification category, Investment cost in construction, Operating and maintenance cost.
Week 19 (Obtaining and Evaluating Bids)
Rules in bidding, Invitation to Pre-qualify, Analysis of Pre-Qualification data, selection and notification, inquiry document, submission and receipt of bids, Evaluation of bids, Award of contract the PD 1594.
Week 20 (Auxiliary and Research Related Topics)
Safety Engineering in Construction, Value Engineering, Building Appraisal and Methodology
Grading System
Quizzes/Exercises 30%
Class Discussion 10%
Project Presentation 60%
TOTAL 100%
Reference:
1. Effective Planning and Scheduling of Projects by: Antonio O. Tasingco DLSU Press, Manila
2. Project Study by: Remeo A. Sanares UNC, Naga City
3. Contract Management Program DMCI by: David Villaviray, Manila 4. Contractor’s Management Handbook by: O’brein and Zilly
5. PD 1594 an DPWH
6. PD 1096 (The National Building Code)
7. Simplified Construction Estimate By: Max B. Fajardo
8. Simplified Methods on Building Construction by: Max B. Fajardo
Prepared by:
Engr. Tomas U. Ganiron, Jr. MSCE Chairperson, CE and Drawing Dept.
FEATI UNIVERSITY