CMO 29 s2007 - Annex III BSCE Course Specs

5/21/2018 CMO 29 s2007 - Annex III BSCE Course Specs

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1. TECHNICAL COURSES

A. MATHEMATICS

Course Name COLLEGE ALGEBRA

Course Description

Algebraic expressions and equations; solution sets of algebraic equations inone variable: linear, quadratic, polynomial of degree n, fractional, radicalequations, quadratic in form, exponential and logarithmic equations;decomposition of fractions into partial fractions; solution sets of systems oflinear equations involving up to three variables.

Number of nits for !ecture and!aboratory

" units lecture

Number of Contact #ours per $ee% " hours lecture

&rerequisite None

Course 'b(ectives

After completing this course, the student must be able to:). 'perate and simplify algebraic expressions;*. Determine the solution sets of all types of algebraic equations,

exponential and logarithmic equations; and inequalities;". se the manipulative and analytical s%ills acquired in 'b(ectives ) to *

to solve +ord problems; and. -dentify the domain and range of a given relationfunction.

Course 'utline

). /he 0et of 1eal Numbers).). -nteger 2xponents).*. &olynomials, 'perations, 0pecial &roducts).". 3inomial 2xpansion 43inomial /heorem5).. 6actoring &olynomials

*. 1ational 2xpressions*.). 1ules of 2xponents; 0implification of 1ational 2xpressions;

'perations on 1ational 2xpressions*.*. &roperties of 1adicals; 0implification of 1adicals*.". 'perations on 1adicals*.. Complex Numbers

". 2quations in 'ne 7ariable".). !inear 2quations; !iteral 2quations".*. 8uadratic 2quations in 'ne 7ariable".". $ord &roblems".. 'ther 2quations in 'ne 7ariable: 1adical, 6ractional, 8uadratic

in 6orm".9. &olynomial 2quation of Degree n

. 6unctions.). -nverse 6unctions

.*. 2xponential and !ogarithmic 6unctions.". 2xponential and !ogarithmic 2quations

9. 0ystems of !inear 2quations 4by 2limination ethods5. Decomposition of 1ational 2xpressions into &artial 6ractions

!aboratory 2quipment None

0uggested 1eferences

Dugopols%i, ar%. College Algebra, "rd ed. Addison.i(ares, Catalina. College Algebra.0+o%o+s%i, 2arl $. and @effrey A. Cole.Algebra and Trigonometry with

Analytic Geometry, )=th ed. 3roo%sCole &ublishing Co., *==).

Course Specification BSCE 1/74

COURSE SPECIFICATIONSBachelor of Science in Civil Enineerin


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Course Name A!"ANCE! ALGEBRA

Course Descriptionatrices and determinants; arithmetic and geometric series; solution sets ofdifferent types of inequalities and systems involving quadratics; solution of linearequations using determinants and matrices.

Number of nits for!ecture and !aboratory * units lecture

Number of Contact #oursper $ee%

* hours lecture

&rerequisites College Algebra

Course 'b(ectives

After completing this course, the student must be able to:). Determine the solution sets of inequalities;*. Determine the solution sets of systems involving quadratics;". se the manipulative and analytical s%ills acquired in 'b(ective * to solve

+ord problems;. 'perate and manipulate matrices and determinants;9. 0olve systems of linear equations using matrices and determinants; and. Determine the indicated sum of the elements in an arithmetic and geometric

sequence.

Course 'utline

). -nequalities).). !inear, 8uadratic, and &olynomial -nequality).*. !inear -nequalities +ith Absolute 7alue

*. 1atio, &roportion, and 7ariation". Determinants

".). 2xpansion by inors".*. 0olution of !inear 0ystems by Cramers 1ule

. atrices.). -dentity atrix.*. Cofactor atrix

.". /ranspose of a atrix.. Ad(oint atrix.9. -nverse of a atrix.. Algebra on atrices 40um and Difference, 0calar ultiplication,

atrix ultiplication5.B. 0olution of !inear 0ystems sing atrices

9. 0equence and 0eries9.). Arithmetic and eometric eans9.*. Arithmetic and eometric 0equences9.". Arithmetic and eometric 0eries9.. -nfinite 0eries

. Combinatorial athematics.). 0equences.*. /he 6actorial of a Number.". 6undamental &rinciples of Counting, &ermutation, and Combination.. 3inomial /heorem.9. athematical -nduction



Dugopols%i, ar%. College Algebra, "rd ed. Addison?>.0+o%o+s%i, 2arl $. and @effrey A. Cole.Algebra and Trigonometry with




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Course Name PLANE AN! SPHERICAL TRIGONOMETR#

Course Description/rigonometric functions; identities and equations; solutions of triangles; la+ ofsines; la+ of cosines; inverse trigonometric functions; spherical trigonometry

Number of nits for!ecture and !aboratory

" units lecture


" hours lecture

&rerequisite None

Course 'b(ectives

After completing this course, the student must be able to:). Define angles and ho+ they are measured;*. Define and evaluate each of the six trigonometric functions;". &rove trigonometric functions;. Define and evaluate inverse trigonometric functions;9. 0olve trigonometric equations;. 0olve problems involving right triangles using trigonometric function

definitions for acute angles; andB. 0olve problems involving oblique triangles by the use of the sine and cosine

la+s.

Course 'utline

). /rigonometric 6unctions).). Angles and easurement).*. /rigonometric 6unctions of Angles).". /rigonometric 6unction 7alues).. /he 0ine and Cosine of 1eal Numbers).9. raphs of the 0ine and Cosine and 'ther 0ine $aves).. 0olutions of 1ight /riangle

*. Analytic /rigonometry*.). /he 2ight 6undamental -dentities*.*. &roving /rigonometric -dentities

*.". 0um and Difference -dentities*.. Double


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Course Name ANAL#TIC GEOMETR#

Course Description2quations of lines and conic sections; curve tracing in both rectangular and polarcoordinates in t+o>".

&rotter, urray #. and &hilip 2. &rotter. Calculus with Analytic Geometry, thed.

8uirino and i(ares. Plane and Analytic Geometry, *nd ed.

1iddle, Douglas 6.Analytic Geometry, th ed.0+o%o+s%i, 2arl $. and @effrey A. Cole.Algebra and Trigonometry with




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Course Name SOLI! MENSURATION

Course Description

Concept of lines and planes; Cavalieris and 7olume theorems; formulas for areas

of plane figures, volumes for solids; volumes and surfaces areas for spheres,pyramids, and cones; Eone, sector and segment of a sphere; theorems of&appus.


* units lecture


* hours lecture

&rerequisiteCollege Algebra, &lane and 0pherical /rigonometry

Course 'b(ectives

After completing this course, the student must be able to:). Compute for the area of plane figures;*. Compute for the surface areas and volumes of different types of solids; and". Determine the volumes and surface areas of solids using other methods

such as the theorems of &appus.

Course 'utline

). &lane 6igures).). ensuration of &lane 6igures

*. !ines and &lanes in 0pace*.). /ypical &roofs of 0olid eometry*.*. Angles

". 0olids for +hich 7 F 3h".). 0olid 0ections".*. Cubes".". 1ectangular &arallelopiped

".. Cavalieris /heorem".9. 7olume /heorem".. &rism".B. Cylindrical 0urface".?. Cylinder 4Circular and 1ight Circular5

. 0olids for +hich 7 F 3h.). &yramids.*. 0imilar 6igures.". Cones.. 6rustum of 1egular &yramid.9. 6rustum of 1ight Circular Cone

9. 0phere9.). 0urface Area and 7olume9.*. Gone9.". 0egment9.. 0ector

. /heorems of &appus


0uggested 1eferenceHern, $illis 6. and @ames 1. 3land. Solid Mensuration, *nd ed. Ne+ Ior%: @ohn

$iley 0ons, -nc.



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Course Name !IFFERENTIAL CALCULUS

Course Description

3asic concepts of calculus such as limits, continuity and differentiability offunctions; differentiation of algebraic and transcendental functions involving oneor more variables; applications of differential calculus to problems on optimiEation,rates of change, related rates, tangents and normals, and approximations; partialdifferentiation and transcendental curve tracing.


units lecture


hours lecture

&rerequisitesAdvanced AlgebraAnalytic eometry0olid ensuration

Course 'b(ectives

After completing this course, the student must be able to:). #ave a +or%ing %no+ledge of the basic concepts of functions and limits;*. Differentiate algebraic and transcendental functions +ith ease;". Apply the concept of differentiation in solving +ord problems involving

optimiEation, related rates, and approximation; and. AnalyEe and trace transcendental curves.

Course 'utline ). 6unctions).). Definitions).*. Classification of 6unctions).". Domain and 1ange of a 6unction).. raph of a 6unction).9. 6unctional Notation).. 2valuation of a 6unction).B. Combinations of 6unctions).?. 'ne


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)=.*. /angents and Normal to Curves)=.". 2xtrema and the 6irst Derivative /est)=.. Concavity and the 0econd Derivative /est)=.9. &oints of -nflection)=.. 0%etching &olynomial Curves

)). Applications of the Derivative: 'ptimiEation &roblems)*. Applications of the Derivative: 1elated 1ates

)". /he Differential)".). Definition

)".*. Applications of the DifferentialJComparison of x and dx)".". 2rror &ropagation)".. Approximate 6ormulas

). Derivatives of /rigonometric 6unctions).). 2lementary &roperties).*. Definition).". raphs of /rigonometric 6unctions).. Applications

)9. Derivatives of -nverse /rigonometric 6unctions)9.). 2lementary &roperties)9.*. Definition

)9.". raphs of -nverse /rigonometric 6unctions)9.. Applications

). Derivatives of !ogarithmic and 2xponential 6unctions).). 2lementary &roperties).*. Definition).". raphs of !ogarithmic and 2xponential 6unctions).. Applications

)B. Derivatives of #yperbolic 6unctions)B.). 2lementary &roperties)B.*. Definition)B.". raphs of #yperbolic 6unctions)B.. Applications

)?. 0olution of 2quations)?.). Ne+tons ethod of Approximation)?.*. Ne+ton. /ranscendental Curve /racing)>.). !ogarithmic and 2xponential 6unctions

*=. &arametric 2quations*). &artial Differentiation


0uggested 1eferences Anton, #o+ard. Multivariable Calculus, th ed. Ne+ Ior%: @ohn $iley 0ons,-nc., )>>*.

3er%ey, Dennis D. Calculus for Management and Social Sciences, *nd ed.0aunders College &ublishing, )>>=

CoEEens, argaret 3. and 1ichard D. &orter. Mathematics with Calculus. D.C.#eath Co., )>?B

2llis, 1obert and 3enny ulic%. Calculus with Analytic Geometry. #arcourt3race @ovanovich, )>>=.

6arlo+, 0tanley @. Calculus and Its Alication. cra+>=.oldstein, !arry @., David C. !ay and David -. 0chneider. Calculus and Its

Alication, th ed. &rentice #all, -nc., )>>".#arsbarger, 1onald @. and @ames @. 1eynolds. Calculus with Alications. D.C.

#eath Co., )>>=.#offman, !aurence D. Calculus for !usiness" #conomics and the Social and

$ife Sciences, "rd ed. cra+?>.#older, !eonard !.A Primer for Calculus, th ed. $ads+orth &ublishing Co.,

)>?B.

!arson, 1oland 2. and 3ruce #. 2d+ards. %inite Mathematics with Calculus.D.C. #eath Co., )>?B.

!eithold, !ouis. The Calculus, Bth ed. Addison


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!ial, argaret !. and Charles D. iller. %inite Mathematics and Calculus withAlication, "rd ed. 0cott, 6oresman and Company, )>?>.

&rotter, urray #. Calculus with Analytic Geometry. @ames 3arlett, )>??.0+o%o+s%i, 2arl $. Calculus, 9th ed. &$0>).Gill, Dennis . Calculus with Analytic Geometry. &$0??.Gitarelli, David 2. and 1aymond 6. Coughlin. %inite Mathematics with Calculus&

An Alied Aroach. 0anders College &ublishing, )>?>.

Course Name INTEGRAL CALCULUS

Course Description

Concept of integration and its application to physical problems such as evaluationof areas, volumes of revolution, force, and +or%; fundamental formulas andvarious techniques of integration applied to both single variable and multi


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9.". Cylinders9.. 8uadratic 0urfaces9.9. Double -ntegrals9.. /riple -ntegrals

. ultiple -ntegral as 7olume.). Double -ntegrals.*. /riple -ntegrals



Anton, #o+ard. Multivariable Calculus, th ed. Ne+ Ior%: @ohn $iley 0ons,-nc., )>>*.

3er%ey, Dennis D. Calculus for Management and Social Sciences, *nd ed.0aunders College &ublishing, )>>=.

CoEEens, argaret 3. and 1ichard D. &orter. Mathematics with Calculus. D.C.#eath Co., )>?B.

2llis, 1obert and 3enny ulic%. Calculus with Analytic Geometry. #arcourt 3race@ovanovich, )>>=.

6arlo+, 0tanley @. Calculus and Its Alication. cra+>=.oldstein, !arry @., David C. !ay and David -. 0chneider. Calculus and Its

Alication, th ed. &rentice #all, -nc., )>>".#arsbarger, 1onald @. and @ames @. 1eynolds. Calculus with Alications. D.C.

#eath Co., )>>=.#offman, !aurence D. Calculus for !usiness" #conomics and the Social and $ife

Sciences, "rd ed. cra+?>.!eithold, !ouis. The Calculus, Bth ed. Addison


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.). 0tandard 6orm of a !inear D.2..*. !inear -ndependence of a 0et of 6unctions.". Differential 'perators.. Differential 'perator 6orm of a !inear D.2.

9. #omogeneous !inear D.2. +ith Constant Coefficients9.). eneral 0olution9.*. Auxiliary 2quation

. Non


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.9. Coefficient of 7ariationB. &robability Distributions

B.). Counting /echniquesB.*. &robabilityB.". athematical 2xpectationsB.. Normal Distributions

?. -nferential 0tatistics

?.). /est of #ypothesis?.*. /est Concerning eans, 7ariation, and &roportion?.". Contingency /ables?.. /est of -ndependence?.9. oodness?*.

$alpole, 1onald 2., et al. Probability and Statistics for #ngineers and Scientists,Bth ed. &rentice #all, -nc., *==*.

B. NATURAL%PH#SICAL SCIENCES

Course Name GENERAL CHEMISTR#

Course Description

3asic concepts of matter and its classification; mass relationships in chemicalreactions; properties of gases, liquids, and solids; concepts of thermochemistry;

quantum theory and electronic behavior; periodic relationship of elements in theperiodic table; intramolecular forces; and solutions.


units: " units lecture, ) unit laboratory


hours: " hours lecture, " hours laboratory

&rerequisite None

Course 'b(ectives After completing this course, the student must be able to:). Apply significant figures and appropriate units in all measurements and

calculations;

*. Classify matter; distinguish bet+een physical and chemicalpropertieschanges;

". Define and explain the concepts of atomic mass, average atomic mass,mole, molar mass and perform calculations involving these;

. 3alance and interpret chemical equations and perform stoichiometriccalculations;

9. $rite, explain and apply the gas la+s;. Discuss the %inetic molecular theory 4H/5 of gases and use the H/ to

qualitatively explain the gas la+s; argue the differences bet+een ideal andnon. $rite electron configurations and orbital diagrams for multi electron atoms;



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)=. se the periodic table to classify elements and predict trends in properties;)). $rite !e+is dot symbols and !e+is structure;)*. 2xplain valence bond theory, hybrid orbitals, and hybridiEation in common

compounds)". Distinguish bet+een inter< and intramolecular forces; give examples of

intramolecular forces and ho+ they relate to physical properties;). Distinguish bet+een crystalline and amorphous solids

)9. Discuss various physical changes and interpret phase diagrams;). Distinguish different types of solutions; +or% +ith different concentration

units; nderstand the effect of temperature and pressure on solubility; and)B. 2xplain and apply colligative properties to determine molar mass.

Course 'utline ). /he 0tudy of Change).). -ntroduction to Chemistry).*. atter: Classification, 0tates, &hysical, and Chemical &roperties).". easurement and #andling of Numbers

*. Atoms, olecules, and -ons*.). /he Atomic /heory*.*. /he 0tructure of the Atom*.". Atomic Number, ass Number, -sotopes

*.. /he &eriodic /able*.9. olecules and -ons*.. Chemical 6ormulas*.B. Naming Compounds

". ass 1elationships in Chemical 1eaction".). Atomic ass".*. olar ass of an 2lement and Avogadros Number".". olecular ass".. &ercent Composition of Compounds".9. Chemical 1eactions and Chemical 2quations".. Amounts of 1eactants and &roducts".B. !imiting 1eagents".?. 1eaction Iield

. ases.). 0ubstances /hat 2xist as ases.*. &ressure of a as.". /he as !a+s.. /he -deal as 2quation.9. as 0toichiometry.. Daltons !a+ of &artial &ressure.B. /he Hinetic olecular /heory of ases.?. Deviation from -deal 3ehavior

9. /hermochemistry9.). 2nergy Changes in Chemical 1eactions9.*. -ntroduction to /hermodynamics9.". 2nthalpy

. 8uantum /heory and the 2lectronic 0tructure of Atoms.). 6rom Classical &hysics to 8uantum /heory.*. 3ohrs /heory of the #ydrogen Atom.". /he Dual Nature of the 2lectron.. 8uantum echanics.9. 8uantum Numbers.. Atomic 'rbitals.B. 2lectron Configuration.?. /he 3uilding


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?.*. /he -onic 3ond?.". /he Covalent 3ond?.. 2lectronegativity?.9. $riting !e+is 0tructure?.. /he Concept of 1esonance?.B. 3ond 2nergy

>. Chemical 3onding: olecular eometry and #ybridiEation

>.). olecular eometry>.*. Dipole oments>.". /he 7alence 3ond /heory>.. #ybridiEation of Atomic 'rbitals>.9. #ybridiEation in olecules Containing Double and /riple 3onds

)=. -ntermolecular 6orces in !iquids and 0olids)=.). /he H/ of !iquids and 0olids)=.*. -ntermolecular 6orces)=.". &roperties of !iquids)=.. Crystalline vs. Amorphous 0olids)=.9. &hase Changes)=.. &hase Diagrams

)). &hysical &roperties of 0olutions

)).). /ypes of 0olutions)).*. A olecular 7ie+ of the 0olution &rocess)).". Concentration nits)).. 2ffect of /emperature and &ressure on 0olubility)).9. Colligative &roperties

!aboratory 2quipment Chemistry !aboratory 4see attached5


Chang, 1aymond. Chemistry,?th ed. 4-nternational 2d.5. Ne+ Ior%: cra+#ill, *==9.

2uban%s, !ucy &., et al. Chemistry in Conte)t, 9th ed. 3oston: cra+ #ill,*==.

asterton, $illiam !. and Cecile N. #urley. Chemistry& Princiles and *eactions,

9th ed. Canada: /homson 3roo%sCole, *==.3rady, @ames 2., and 6red 0enese. Chemistry& Matter and Its Changes, th ed.Ne+ @ersey: @ohn $iley 0ons, -nc., *==.

3ro+n, /heodore !., et al. Chemistry&The Central Science, >th ed. Ne+ @ersey:*==".

0ilberberg, artin 0. Chemistry& The Molecular +ature of Matter and Change,"rd ed. 4-nternational 2d.5. Ne+ Ior%: cra+ #ill, *==".

Course Name PH#SICS 1

Course Description7ectors; %inematics; dynamics; +or%, energy, and po+er; impulse andmomentum; rotation; dynamics of rotation; elasticity; and oscillation.





&rerequisitesCollege Algebra&lane and 0pherical /rigonometry

Course 'b(ectives After completing this course, the student must be able to:). Differentiate a vector from a scalar;*. Determine the resultant of concurrent vectors;

". 0olve problems in %inematics;. Apply Ne+tons !a+s of otion;9. Determine the gravitational force bet+een different masses;



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. 0olve problems involving centripetal force for horiEontal and vertical curves;B. Compute the +or% done on a given body;?. 1elate +or% and energy;>. 0olve problems by applying the la+ of conservation of energy;

)=. 0olve problems in impulse and momentum and collisions;)). Determine the stress and strain on a body; and)*. Determine the period of a body in simple harmonic motion.

Course 'utline

). $or%, 2nergy and &o+er).). Definition of $or%, 2nergy and &o+er).*. Conservation of 2nergy

*. -mpulse and omentum*.). Definition of -mpulse and omentum*.*. Conservation of omentum

". 7ector".). 7ectors and 0calars".*. raphical ethod".". Analytical ethod

. 7ector 0ubtraction9. Hinematics

9.). 2quations of Hinematics9.*. 6reely 6alling 3odies9.". &ro(ectile otion

. Dynamics.). Ne+tons !a+s of otion.*. 6riction.". 6irst Condition of 2quilibrium

B. $or%, 2nergy and &o+erB.). Definition of $or%, 2nergy and &o+erB.*. Conservation of 2nergy

?. -mpulse and omentum?.). Definition of -mpulse and omentum?.*. Conservation of omentum

?.". Collisions, Coefficient of 1estitution>. 1otation

>.). Definition of torque>.*. 0econd Condition of 2quilibrium>.". Center of ravity

)=. Dynamics of 1otation)=.). Hinematics of 1otation)=.*. Dynamics of 1otation)=.". Center of ravity

)). 2lasticity)).). #oo%es !a+)).*. 0tress and 0train)).". odulus of 2lasticity

)*. 'scillations)*.). Definition of 7ibration otion and 0imple #armonic otion)*.*. Hinematics of 0imple #armonic otion)*.". 0imple &endulum

!aboratory 2quipment &hysics !aboratory


Cutnell, @.D. and H.$. @ohnsons. Physics, th ed.#alliday, David, 1obert 1esnic% and @earl $al%er. %undamentals of Physics,

9th ed. @ohn $iley 0ons, -nc., )>>.0er+ay, 1aymond A. and @ohn $. @e+ett @r. Physics for Scientists and

#ngineers, th ed. 3roo%sCole &ublishing Co., *==".Ioung, #ugh D. and 1oger A. 6reedman. ,niversity Physics, )=th ed. Addison

$esley.



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Course Name PH#SICS &

Course Description6luids; thermal expansion, thermal stress; heat transfer; calorimetry; +aves;electrostatics; electricity; magnetism; optics; image formation by plane and

curved mirrors; and image formation by thin lenses.





&rerequisite &hysics )

Course 'b(ectives

After completing this course, the student must be able to:). Describe the characteristics of fluids at rest and in motion;*. Compute the buoyant force on an ob(ect immersed in a fluid;". Compute the pressure and flo+ speed of a fluid at any point in a flo+ tube;. Determine the amount of expansion of a given material in relation to

temperature change;9. Determine the change in temperature of a given amount of material that

loses or gains;. 0olve problems about the la+ of heat transfer;B. Describe the three methods of heat transfer;?. Discuss the properties of +aves;>. Describe the modes of vibration of strings and air columns;

)=. 0olve problems on Doppler 2ffect;)). Compute the electric force bet+een electric charges;)*. Compute the electric field due to electric charges;)". Compute the electric potential due to a charge and electric potential energy

of charges;

). Define electric current, electric resistance and voltage;)9. 0olve problems on resistance and cells in series and parallel;). 0tate Hirchhoffs rules and apply them in a given circuit;)B. Compute the magnetic field of a given current. Describe image formation by mirrors and lenses.

Course 'utline ). 6luids).). &ressure, 0pecific ravity, Density).*. Archimedes &rinciple).". 1ate of 6lo+ and Continuity &rinciple).. 3ernoullis &rinciple).9. /orricellis /heorem

*. /hermal 2xpansion, /hermal 0tress". #eat /ransfer. Calorimetry

.). 0pecific #eat.*. !a+ of #eat 2xchange.". Change of &hase

9. $aves9.). /ypes of $aves and /heir &roperties9.*. 0ounds

. 2lectrostatics.). Charge.*. Coulombs !a+.". 0uperposition &rinciple.. 2lectric 6ield -ntensity.9. $or% and &otential.. Capacitors, Dielectrics



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B. 2lectricityB.). CurrentB.*. 1esistanceB.". 26B.. 'hms !a+B.9. 2nergy and &o+er in CircuitsB.. 0eries and &arallel Connections

B.B. Hirchhoffs 1ules?. agnetism

?.). agnetic 6ield of oving Changes?.*. agnetic 6iled of Current 2lement?.". otion of a Charge in a agnetic 6ield?.. 3iot


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". &repare technical dra+ings.

Course 'utline

). 2ngineering !ettering*. -nstrumental 6igures". eometric Construction. 'rthographic &ro(ection9. Dimensioning

. 'rthographic 7ie+s +ith Dimensions and 0ection 7ie+B. 0ectional 7ie+?. &ictorial Dra+ing>. 2ngineering $or%ing Dra+ings

)=. Assembly and 2xploded Detailed Dra+ings

!aboratory 2quipment

). Drafting table*. Dra+ing instruments

*.). 'ne "=".iesec%e, 6rederic% 2. Princiles of #ngineering Grahics, *nd ed. &rentice

#all, -nc., )>>".iesec%e, 6rederic% 2., et al. Technical 'rawing, )*th ed. *==*.!uEadder, $arren @. %undamentals of #ngineering 'rawing, ))th ed.

&rentice #all, -nc., )>>*.!uEadder, $arren @. and @on . Duff. Introduction to #ngineering 'rawing,

*nd ed. )>>*.

Course Name COMPUTER FUN!AMENTALS AN! PROGRAMMING

Course Description3asic information technology concepts; fundamentals of algorithmdevelopment; high


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).*. $ord processing soft+are).". 0preadsheet soft+are).. #igh


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" units lecture


" hours lecture

&rerequisites&hysics )-ntegral Calculus

Course 'b(ectives

After completing this course, the student must be able to:). nderstand the principles of equilibrium of particles;*. nderta%e vector operations such as vector cross and dot product;". Determine forces of *D and "D structures;. nderstand the principles of static, +edge and belt friction;9. Determine centroids, center of mass and center of gravity of ob(ects;. Determine moment of inertia, mass moment of inertia; andB. AnalyEe the stresses of trusses, beams and frames.

Course 'utline

). -ntroduction to echanics; 7ector 'perations*. 6orce 7ectors and 2quilibrium of &articles". 7ector Cross and Dot &roduct

. oment of a 6orce9. Couples; oment of a Couple. 2quivalent 6orce 0ystems in *D and "DB. Dry 0tatic 6riction, $edge and 3elt 6riction?. Centroid; Center of ass; and Center of ravity>. Distributed !oads and #ydrostatic 6orces; Cables

)=. oment of -nertia; ass oment of -nertia)). /russes; 6rames and achines; -nternal 6orces)*. 3eams; 0hear and 3ending oment Diagrams



3edford, Anthony and $allace 6o+ler. #ngineering Mechanics& Statics, "rded. Ne+ @ersey: &rentice #all, -nc., *==*.

3eer, 6erdinand &. and 2. 1ussell @ohnston @r. 0ector Mechanics for#ngineers& Statics, Bth 0- ed.

&acheco, 2dgardo 0. Statics of *igid !odies, 0- ed.

Course Name !#NAMICS OF RIGI! BO!IES

Course DescriptionHinetics and %inematics of a particle; %inetics and %inematics of rigid bodies;+or% energy method; and impulse and momentum.


* units lecture

Number of Contact #oursper $ee% * hours lecture

&rerequisite 0tatics of 1igid 3odies



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Course 'b(ectives

After completing this course, the student must be able to:). nderstand the principles governing the motion of particles, velocity and

acceleration;*. nderstand the principles of Ne+tons 0econd !a+ and its applications;". nderstand %inetics of particles in particular energy and momentum

methods; and. nderstand %inematics of rigid bodies, its energy and momentum.

Course 'utline ). -ntroduction to Dynamics*. &osition, 7elocity, and Acceleration". Determination of the otion of the &articles. niform 1ectilinear otion9. niformly Accelerated 1ectilinear otion. &osition 7ector, 7elocity, and AccelerationB. Derivatives of 7ector 6unctions?. 1ectangular Components of 7elocity and Acceleration>. otion 1elative to a 6rame in /ranslation

)=. /angential and Normal Components)). 1adial and /ransverse Components)*. otion of 0everal &articles 4Dependent otion5)". Hinetics of &articles: Ne+tons 0econd !a+

)".). Ne+tons 0econd !a+ of otion)".*. !inear omentum of the &article, 1ate of Change of !inear

omentum)".". 0ystem of nits)".. 2quation of otion)".9. Dynamic 2quilibrium)".. Angular omentum of &article, 1ate of Change of Angular

omentum)".B. 2quations in /erms of 1adial and /ransverse Components)".?. otion nder a Central 6orce

). Hinetics of &articles: 2nergy and omentum ethods).). $or% of 6orce).*. Hinetic 2nergy of a &article, &rinciple of $or% and 2nergy).". Applications of the &rinciple of $or% and 2nergy).. &otential 2nergy).9. Conservative 6orces).. Conservation of 2nergy).B. &rinciple of -mpulse and omentum).?. -mpulsive otion).>. -mpact).)=. Direct Central -mpact).)). 'blique Central -mpact).)*. &roblems -nvolving 2nergy and omentum

)9. 0ystems of &articles)9.). Application of Ne+tons 0econd !a+s to otion of a 0ystem of

&articles)9.*. !inear and Angular omentum of a 0ystem of &articles)9.". otion of ass Center of a 0ystem of &articles)9.. Angular omentum of a 0ystem of &articles About -ts ass

Center)9.9. Conservation of omentum for a 0ystem of &articles)9.. Hinetic 2nergy of a 0ystem of &articles)9.B. $or%


21/74

).. -nstantaneous Center of 1otation in &lane otion).B. Absolute and 1elative Acceleration).?. 1ate of Change of a 7ector +ith 1espect to a 1otating 6rame).>. &lane otion of a &article 1elative to a 1otating 6rame; Coriolis

Acceleration).)=. otion About a 6ixed &oint).)). eneral otion

).)*. /hree


22/74

>. aterial &roperties)=. $or%ing 0tresses)). Deformation in a 0ystem of Axially !oaded embers)*. /emperature 2ffects on Axially !oaded embers)". 0tatically -ndeterminate embers). /hin. 3eam Deflection by the Double -ntegration ethod*=. Area oment /heorems*). oment Diagram by &arts**. 3eam Deflection by Area oment ethod*". 0tatically -ndeterminate 3eams*. 3uc%ling of !ong 0traight Columns*9. Combined !oadings*. Analysis of 1iveted Connections by the niform 0hear ethod*B. $elded Connections



#ibbeler, 1ussell C. Mechanics of Materials, 9th ed. &rentice #all, -nc.,*==*.

#igdon, Archie, et al. Mechanics of 'eformable !odies, th ed. @ohn $iley 0ons, )>?>.

cill, David and $ilton . Hing. #ngineering Mechanics" An Introduction to'ynamics, "rd ed. &$0 &ublishing Co., )>>9.

Course Name ENGINEERING ECONOM#

Course DescriptionConcepts of the time value of money and equivalence; basic economy studymethods; decisions under certainty; decisions recogniEing ris%; and decisionsadmitting uncertainty.


" units lecture


" hours lecture

&rerequisite /hird Iear 0tanding

Course 'b(ectives

After completing this course, the student must be able to:). 0olve problems involving interest and the time value of money;

*. 2valuate pro(ect alternatives by applying engineering economic principlesand methods and select the most economically efficient one; and

". Deal +ith ris% and uncertainty in pro(ect outcomes by applying the basiceconomic decision ma%ing concepts.

Course 'utline ). -ntroduction).). Definitions).*. &rinciples of 2ngineering 2conomy).". 2ngineering 2conomy and the Design &rocess).. Cost Concepts for Decision a%ing).9. &resent 2conomy 0tudies

*. oney


23/74

".). /he inimum Attractive 1ate of 1eturn".*. /he &resent $orth ethod".". /he 6uture $orth ethod".. /he Annual $orth ethod".9. /he -nternal 1ate of 1eturn ethod".. /he 2xternal 1ate of 1eturn ethod".B. /he &aybac% &eriod ethod

".?. /he 3enefitCost 1atio ethod. Decisions nder Certainty

.). 2valuation of utually 2xclusive Alternatives.*. 2valuation of -ndependent &ro(ects.". Depreciation and After=.

Ne+man, Donald ., @erome & !avelle and /ed 0. 2schenbach. #ssentialsof #ngineering #conomic Analysis, *nd ed., 'xford niversity &ress,*==*.

&ar%, Chan 0. Contemorary #ngineering #conomics, "rd ed. Addison$esley, *==).

1iggs, @ames !., et al. #ngineering #conomics, th ed., cra+>.

0ullivan, $illiam ., 2lin . $ic%s and @ames /. !uxho(. #ngineering#conomy, )*th ed. &rentice #all, -nc., *==*.

/huesen, erald @. and $.@. 6abryc%y. #ngineering #conomy, >th ed.&rentice #all, -nc., *==).

Course Name ENGINEERING MANAGEMENT

Course DescriptionDecision


24/74

".". 0taffing".. Communicating".9. otivating".. !eading".B. Controlling

. anaging &roduct and 0ervice 'perations9. anaging the ar%eting 6unction

. anaging the 6inance 6unction



2isner, #o+ard. #ssentials of Pro1ect and System #ngineering Management,*nd ed. @ohn $iley 0ons, -nc., *==*.

ram, #arold A.An Introduction to Management. #olt, 1inehart and $instonof Canada, !imited, )>>=.

'berlender, erold D. Pro1ect Management for #ngineering and Construction,*nd ed. cra+>>.

$heeler, /homas 6. Comuter and #ngineering Management.cra+>=.

Course Name EN"IRONMENTAL ENGINEERING

Course Description

2cological frame+or% of sustainable development; pollution environments:+ater, air, and solid; +aste treatment processes, disposal, and management;government legislation, rules, and regulation related to the environment and+aste management; and environmental management system.

Number of nits for

!ecture and !aboratory * units lecture


* hours lecture

&rerequisites eneral Chemistry

Course 'b(ectives

After completing this course, the student must be able to:). nderstand the various effects of environmental pollution;*. Hno+ the existing la+s, rules, and regulations of the government on

environmental issues;". -dentify, plan, and select appropriate design treatment schemes for +aste

disposal; and. nderstand the importance of +aste management and its relevance to

the engineering profession.

Course 'utline

). 2cological Concepts).). -ntroduction to 2nvironmental 2ngineering).*. 2cology of !ife).". 3iogeochemical Cycles).. 2cosystems

*. &ollution 2nvironments*.). $ater 2nvironment*.*. Air 2nvironment*.". 0olid 2nvironmental*.. /oxic and #aEardous $aste /reatment

". 2nvironmental anagement 0ystem

".). 2nvironmental -mpact Assessment".*. 2nvironmental Clearance Certificate



25/74



3ellardi, '3rien. a3ardous 4aste Site *emediation. @ohn $iley 0ons,-nc., )>>9.

Crites, 1on and . /chobanoglous. Small and 'ecentrali3ed 4astewaterManagement Systems. cra+>?.

Davis, ac%enEie !. and 0usan @. asten. Princiles of #nvironmental

#ngineering and Science. cra+).ihe%ic, @ames. %undamentals of #nvironmental #ngineering. @ohn $iley

0ons, -nc., )>>>.

Nemero+, N.!. and 6. Agardy. Strategies of Industrial and a3ardous 4asteManagement. -nternational /homson &ublishing Company, )>>?.

'rtolano, !eonard. #nvironmental *egulation and Imact Assessment. @ohn$iley 0ons, -nc., )>>B.

&erry, 0., D. 1o+er and . /chobanoglous. #nvironmental #ngineering.cra+?9.

$ar%, H., C. $arner and $. Davis.Air Pollution 5 Its rigin and Control.Addison>?.

Course Name SAFET# MANAGEMENT

Course Description

2volution of safety management; safety terminology; safety programs adoptedby high ris% industries;haEards in the construction, manufacturing, gas and po+er plants, and otherengineering industries and ho+ to prevent or mitigate them;techniques in haEard identification and analysis in +or%places; off


26/74

*.B. 6ire 0afety and the 6ire Code*.?. -ndustrial #ygiene*.>. #aEard Communication and Chemical 0afety

". 7alue 3ased 0afety and 'ff


27/74

Co(r)e O(,line

). 3asic Concepts of /hermodynamics and #eat /ransfer*. 1efrigeration and Air>*

David 3earg, Indoor Air 6uality and 0AC Systems, c. )>>"

A0#1A2 @ournal Articles

A0#1A2 #andboo% K 6undamentals

Charles 6leddermann, #ngineering #thics, *nd2d., c. *==

Co(r)e Na*e BASIC ELECTRICAL ENGINEERING

Co(r)e !e)cri+,ion

/his course provides the students a sound bac%ground in the theory and

concepts of the fundamental and basic la+s of electricity and magnetism.&ractical applications such as electrical equipment, electrical safety,blueprint reading, house and commercial building +iring, and lighting areintroduced

N(*-er of Uni,) forLec,(re an La-ora,or/

!ecture K " units

N(*-er of Con,ac, Ho(r)+er ee2

!ecture K " hours

Prere3(i)i,e College Algebra, &lane and 0pherical /rigonometry, &hysics *

Co(r)e O-4ec,ive)

After completing this course, the student must be able to:). #ave a deeper understanding and appreciation about electric

circuits.*. nderstand and apply operating principles of AC


28/74

Co(r)e O(,line

1. !IRECT CURRENT. 'hms !a+, 0eries, &arallel Connections,3atteries and &o+er.

2. ALTERNATING CURRENT.7oltage, Current &hase, &ea%, rms,Average 7alues.

3. MAGNETISM. 6undamentals, agnetic Circuits, nits of agnetics.6. ELECTRICAL MATERIALS. Conductors, -nsulators,

0emiconductors.

5. !C MACHINES % E$UIPMENT. 6undamental Concepts, otors,eters.

7. AC MACHINES % E$UIPMENT. 6undamental Concepts, otors,/ransformers.

7. ELECTRICAL SAFET#. 2quipment &rotection, &ersonnel&rotection.

8. BLUEPRINT REA!ING.2lectrical 0ymbols, 2lectrical Diagrams.9. HOUSE%COMMERCIAL BUIL!ING 8IRING AN! LIGHTING

La-ora,or/ E3(i+*en, N'N2

S(e),e Reference)

). +ational #lectrical Code andboo7.

2. usso+, ilton; Schaum/s utline Series& !asic #lectricity

Theory 8 Problems. )>?"3. 6o+ler, 1ichard; #lectriity Princiles 8 Alications. )>?>.4. ullin, 1ay C. and 0mith, 1obert !.; #lectrical 4iring

9Commercial:

E. PROFESSIONAL COURSES

E.1. Plannin

Co(r)e Na*e SUR"E#ING 1 9Ele*en,ar/ an Hiher S(rve/in:

Co(r)e !e)cri+,ion

/heory and practice of surveying techniques and instruments including tape,compass, transit, theodolite and level; running a traverse and leveling,preparation of plans of survey, and relocation of boundaries. /opographicsurveying methods, lobal &ositioning 0ystem location for latitude, longitude,time and location of shorelines and sounding, measuring velocity anddischarge of streams, aerial and satellite surveying. se of a lobal&ositioning 0ystem in surveying and computer soft+are.

N(*-er of Uni,) forLec,(re; La-ora,or/;Fielor2 an T(,orial

!ecture K " units6ield+or% K ) unit


!ecture K " hours6ield+or% K " hours

Prere3(i)i,e%Co're3(i)i,e Advanced Algebra, &lane and 0pherical /rigonometry, 2ngineering Dra+ing

Co(r)e O-4ec,ive)

After completing this course, the student must be able to:). nderstand the appropriate surveys and investigations required for

various civil engineering pro(ects.*. Hno+ the requirements of various surveys and investigations". Hno+ the methodologies of carrying out the more common surveys

and investigations such as topographic surveys

Co(r)e O(,line ). 0urveying concepts*. easurements of 7ertical and #oriEontal Distances". !eveling 4Differential, &rofile, Cross


29/74

?. /riangulation>. #ydrographic survey)=. lobal &ositioning 0ystem)). Computer applications

La-ora,or/ E3(i+*en,

). easuring tapes*. 0tadia rods and range poles". !evel

. /ransit/heodolite9. &0. 0urveying soft+are


). 2lements of &lane 0urveying, 3enton*. 0urveying 6undamentals, cCormac". &rinciples Application of 0urveying, Havanagh. #igher 0urveying, !a &utt9. 0urveying, offit 3ouchard. 0urveying; /heory and &ractice,Anderson, @ames .; i%hail,

2d+ard .,

Co(r)e Na*e SUR"E#ING & 9Enineerin S(rve/):

Co(r)e !e)cri+,ion

Design and !ayout of #oriEontal and 7ertical curves, line grade; earth+or%volumes, theory of location as applied to high+ay and rail+ays, massdiagram, overhaul and estimate of cost. se of computer soft+are for massdiagram. !ayout and alignment of civil +or%s structures.

N(*-er of Uni,) for Lec,(re;La-ora,or/; Fielor2 anT(,orial


N(*-er of Con,ac, Ho(r) +eree2


Prere3(i)i,e%Co're3(i)i,e 0urveying )

Co(r)e O-4ec,ive)

After completing this course, the student must be able to:). Hno+ the methodologies of carrying out the more common surveysand investigations such as horiEontal and vertical curves, linegrades, earth+or%s and theory of locations as applied to high+aysand rail+ays, mass diagram and overhaul.

Co(r)e O(,line

). #oriEontal and vertical curves*. !ines and grades". 2arth+or% computations. !ayout and alignment of civil +or%s structures9. Computer applications


). easuring tapes*. 0tadia rods and range poles". !evel

. /ransit/heodolite9. &0. 0urveying soft+are

S(e),e Reference)

). 0urveying and !evelling, 3asa%*. 0urveying 6undamentals, cCormac". 1ail+ay /rac% 2ngineering, undry. 0urveying 6or Construction, -rvine9. 0urveying; /heory and &ractice,Anderson, @ames .; i%hail,

2d+ard .

Co(r)e Na*e< CI"IL ENGINEERING PRO=ECTS

Co(r)e !e)cri+,ion Aro1ect study presents the highlights, descriptive definition, longJrangeob(ectives, feasibility criteria, history, and basic conclusions of the pro(ectunder study. -t gives the analyst and the financier a vie+ of the +hole ob(ect



30/74

-t also presents a comprehensive description of the business and itsoperations and briefly defines the product lines of the business. a(orfindings on the mar%et, technical, financial, socio


31/74

Co(r)e Na*e< BUIL!ING !ESIGN 1

Co(r)e !e)cri+,ion

A study on building parts and its construction, i.e. from the foundation to theroofing. 0tudy of the National 3uilding Code and other pertinent codes. Apractical sub(ect that +ill develop in the student the s%ills required in buildingdesign and construction. /his includes interpretation of building plans and

actual observation and study.N(*-er of Uni,) for Lec,(re;La-ora,or/; Fielor2 anT(,orial

!ecture K ) unit!aboratory K ) unit


!ecture K ) unit!aboratory K " unit

Prere3(i)i,e%Co're3(i)i,e 2ngineering Dra+ing

Co(r)e O-4ec,ive)

After completing this course, the student must be able to:). #ave %no+ledge in drafting building plans.*. 1ead and interpret building plans.". Apply the theoretical %no+ledge into the actual construction.

Co(r)e O(,line

). -nterpretation and reading of building plans

*. 6oundation plan and details". 6loor plans and elevations. 6loor and roof framing plan and details9. 0tructural plans and details. Detailed cross and longitudinal sectionsB. 6orm+or%s and scaffoldings

La-ora,or/ E3(i+*en, Drafting 1oom

S(e),e Te5,-oo2) anReference)

). 3uilding Construction boo%s*. &lanning and Designers #andboo%, ax 6a(ardo". 3uilding Construction -llustrated, 6rancis D.H. Ching. Actual 3uilding &lans in 3lueprint9. niform 3uilding Code. National 3uilding Code

B. National 0tructural Code of the &hilippines?. 0implified 3uilding Construction, ax 6a(ardo

Co(r)e Na*e< BUIL!ING !ESIGN &

Co(r)e !e)cri+,ion

/he study of the plumbing code, fire code and electrical code of the&hilippines, its interpretation and application in building design andconstruction.


!ecture K ) unit!aboratory K ) unit


!ecture K ) unit!aboratory K " unit

Prere3(i)i,e%Co're3(i)i,e 3uilding Design )

Co(r)e O-4ec,ive)

After completing this course, the student must be able to:). -nterpret the various building codes of the &hilippines.*. &repare drafting plans.". Differentiate different electrical and construction materials. nderstand actual plumbing and electrical layout.

Co(r)e O(,line

). &lumbing +or%s*. 2lectrical +or%s". echanical +or%s. Carpentry and finishing +or%s9. 6ire &rotection

La-ora,or/ E3(i+*en, Drafting 1oom

0uggested 1eferences ). 0implified &lumbing Design and 2stimates by ax 6a(ardo



32/74

*. 0implified 2lectrical Design and 2stimates, ax 6a(ardo". &lumbing Code of the &hilippines. echanical Code of the &hilippines9. 6ire Code of the &hilippines. 2lectrical Code of the &hilippinesB. niform 3uilding Code?. 3uilding Construction -llustrated, 6rancis D.H. Ching

E.&. !e)in

Co(r)e Na*e A!"ANCE! ENGINEERING MATHEMATICS FOR CE

Co(r)e !e)cri+,ion

A study of selected topics in mathematics and their applications in advancedA study of selected topics in mathematics and their applications in advanced courses in engineering and other allied sciences. -t covers the study ofcourses in engineering and other allied sciences. -t covers the study ofComplex Numbers, !aplace and -nverse !aplace /ransforms, &o+er series,Complex Numbers, !aplace and -nverse !aplace /ransforms, &o+er series,6ourier series, atrices and Determinants, 7ector Analysis and Numerical6ourier series, atrices and Determinants, 7ector Analysis and Numerical

ethods.ethods.N(*-er of Uni,) for Lec,(rean La-ora,or/

!ecture K " units


!ecture K " hours

Prere3(i)i,e Differential 2quations

Co(r)e O-4ec,ive)

After completing this course, the student must be able to:). 6amiliariEe themselves +ith the different parameters, la+s,

theorems and the different methods of solutions in advancemathematics,

*. Develop their abilities on ho+ to apply the different la+s, methodsand theorems particularly in complex problems.

Co(r)e O(,line

). Complex Numbers

*. !aplace and -nverse !aplace /ransforms". &o+er 0eries. 6ourier 0eries9. 7ector Analysis. Numerical ethods

La-ora,or/ E3(i+*en, N'N2

Te5,-oo2) an Reference)

1. Dulay,7irgilio,Advanced #ngineering Mathematics" )>>

2. HreysEig, 2r+in,Advanced #ngineering Mathematics"@ohn $ileyand 0on &ublishing )>B*

3. 3rom+ell,Arthur,Advanced Mathematics in Physics and#ngineering" c ra+ #ill &ublishing)>9"

4. Holman, 3ernard$inear Algebra, c illan &ublishing #ous)>>)

5. 0cheid, 6rancis, +umerical Analysis" Mc Graw ill Publishing )>?;. Mat$ab Manuals *el


33/74

T(,orial


!ecture K " hours!aboratory K " hours

Prere3(i)i,e%Co're3(i)i,e echanics of Deformable 3odies

Co(r)e O-4ec,ive)

After completing this course, the student must be able to:). Define soil mechanics and its importance in civil engineering.

2. 0ho+ proficiency in determining soil and roc%properties, selectingsoil parameters for analysis and design relevant to geotechnicalengineering.

". Describe the fundamentals of geotechnics.. Demonstrate concepts and principles of field exploration.9. nderstand various subsurface explorations equipments, soil

laboratory tests and equipments

Co(r)e O(,line

1. -ntroduction: 0oil: -ts -mportance in Civil 2ngineering and ansost Common and Complex Construction aterial. 'rigin of soilsand roc%s. 0oil identification and classification.

$aboratory #)ercise +o. =55!aboratory &olicies and &rocedures.$aboratory #)ercise +o.


34/74

$aboratory #)ercise +o. 255Dry &reparation of a Disturbed 0oil 0ample.). /riple 3eam 3alance or Digital $eighing 0cale.*. 'ven +ith temperature control.". &ans.. 0tandard 0ieves Nr. = and Nr. )=.9. 1ubber allet or 1ubber55$et &reparation of a Disturbed 0oil 0ample.

). /riple 3eam 3alance or Digital $eighing 0cale.*. 'ven.

3. &ans +ith at least "== mm and B9 mm deep.. 0tandard 0ieves Nr =.9. 6unnel.. 6ilter &aper.

$aboratory #)ercise +o. ?55&reparation of an ndisturbed 0oil 0ample.). 0oil !athe.*. $ire 0a+.". iter 3ox.

. Hnife.9. 7ernier or micrometer calipers.. agnifying lass.B. Cellophane or $ax &aper.?. 2xtruder 4if the tube sample is used5.

$aboratory #)ercise +o. @550imple 7isual and anual /ests: -dentificationof 0oil 0ample in the 6ield. &hysical &roperties of 0oil.

). 2rlenmeyer 6las%.*. 'ven, +ith temperature control.". ixing Containers.. 0poons.9. 1olling &an.. lass &lates.

$aboratory #)ercise +o. ;55nit $eight, oisture Content, 0pecific ravity,7oid 1atio, &orosity, and Degree of 0aturation Determination.,nit 4eight 'etermination.

). 3ea%er.*. 7ernier Caliper.". 3alance.. &araffin or Candle $ax.9. 0oil !athe.. Distilled $ater.B. Hnife or $ire 0a+.?. &air of /ongs.>. 'ven +ith temperature control.)=. /riple beam balance.

)). 0mall metal drying cans.)*. &air of tongs.)". Dessicator.

Moisture Content 'etermination.). 'ven +ith temperature control.*. /riple beam balance.". 0mall metal drying cans.. &air of tongs.9. Dessicator.

Secific Gravity 'etermination.

). &ycnometer or any 7olumetric 6las%.*. 'ven.

". 3alance.. Distilled $ater.

9. /hermometer graduated to =.)=C.. 3unsen 3urner +ith iron stand or 0ingle 3urner 2lectric 0tove.



35/74

B. $ater 3ath.?. 0ieve Nr. )=.>. Drying Cans.)=. edicine dropper or pipette)). &air of /ongs.

$aboratory #)ercise +o.55!iquid !imit, &lastic !imit, 0hrin%age !imit, and&lasticity -ndex Determination.

$i(uid $imit 'etermination.). !iquid !imit Device +ith rooving /ool 4Casagrndes Cup5.*. ixing 3o+l.". 'ven +ith temperature control.. 3alance, accurate to =.)= gram.9. 0ieve Nr. =.. &ans.B. Drying Cans.?. etric 0cale.>. &air of tongs.)=. 0patula.)). Distilled $ater

Plastic $imit 'etermination.

). lass &late.*. ixing 3o+l.". 'ven +ith temperature control.. 3alance, accurate to =.)= gram.9. 0ieve Nr. =.. &ans.B. Drying Cans.?. &air of tongs.>. 0patula.)=. Distilled $ater.

Shrin7age $imit 'etermination.

1. 0hrin%age old 49 mm and )" mm deep5.

2. 9= mm lass Cup.". &etroleum @elly.. ercury 0upply.9. edicine Dropper.

6. ))9 mm 2vaporating Dish.B. raduated Cylinder.?. lass &late.>. &rongs.)=. 0patula.)). 'ven +ith temperature control.)*. &air of /ongs.)". Dessicator.). 3alance, accurate to =.)= g.

)9. 0ieve Nr. =.). 0traightedge.Plasticity Inde) 'etermination.

). Cone &enetrometer.

2. 9= mm /in Cup.". &rongs.. 0patula.9. 'ven +ith temperature control.. &air of /ongs.B. 3alance, accurate to =.)= g.?. 0ieve Nr. =.>. 0traightedge.

$aboratory #)ercise +o. B55rain 0iEe Analysis: 0ieve /est, #ydrometer

/est.Sieve Test.

). 0et of 0tandard 0ieves.



36/74

*. 'ven +ith temperature control.". 3alance.. &ans.9. &air of tongs.. anual or echanical 0ieve 0ha%er.B. ortar and &estle.

ydrometer Test.

). 3alance, sensitive to at least =.)= gram.*. echanical 0tirring Apparatus and Dispersion Cup.". #ydrometer, heavy and calibrated for soil.. ). ixing bo+l.



37/74

)=. 0ieve Nr. .)). ortar +ith rubber pestle.)*. 0coop and spoons.)". 3ea%er.). Distilled $ater.)9. /ools or suitable material or mechanical device for extruding the

compacted sample from mold.

). oisture 0prayer or any suitable device for thoroughly mixing soilsample +ith +ater.$aboratory #)ercise +o.


38/74

'tta+a 0and, if available.. Digging tools. /hese may consist of an earth auger, a cro+bar, a

chisel, a %nife, and a copping sa+.9. 3alances: )=. 0upport 6rames, and Clamps.

0ariable ead Test.). &ermeameter 0et. /he set must be complete +ith pipe fittings and

head +ith air escape valve and fitting.*. 0tandpipe.". 7acuum &ump.. 3alance, sensitive to =.)=g.9. 0ieve Nr. *==.. Distilled $ater.B. /hermometer, sensitive to =.)= C.

?. 0top $atch.>. /amping Device.)=. raduated Cylinder.



39/74

)). 'ven, +ith temperature control.)*. Drying Cans.)". Calipers.). 0coop.)9. 6unnel.). raduated 6las%.)B. eterstic%.

)?. 1ubber /ubing.)>. 0upport 6rames, and Clamps.

%ield Test.). 3ottomless Can, about ).9=>9. Soil Mechanics.0A:@ohn $iley and 0ons,-nc.

8. /erEaghi, Harl et. al. )>>9. Soil Mechanics %or #ngineeringPractice. @ohn $iley and 0ons, -nc.

9. 0o+ers, eorge 6., 0o+ers, eorge 3. )>B>. Introductory SoilMechanics and %oundation.acmillan, Ne+ Ior%.

Co(r)e Na*e< GEOTECHNICAL ENGINEERING & 9Fo(na,ion:

Co(r)e !e)cri+,ion

/he introductory part of this course deals +ith the some fundamentals ofgeotechnical engineering that includes compressibility of soil, shear strengthof soils, triaxial tests of soils, settlement, lateral earth pressure, soil bearingcapacity, slope stability, and earth retaining structures.

/he second part of this course deals +ith the design of reinforced concretefootings such as +all footing, square isolated footing 4sub(ect to axial load,

and to axial load and bending moment5, rectangular footing 4isolated andcombined5, trapeEoid footing, footing on piles, and strap footing.

N(*-er of Uni,) for Lec,(re; !ecture K " units



40/74

La-ora,or/; Fielor2 anT(,orial

!aboratory K ) unit


!ecture K " hours!aboratory K " hours extensive exercises

Prere3(i)i,e%Co're3(i)i,e eotechnical 2ngineering )

Co(r)e O-4ec,ive)

After completing this course, the student must be able to:

). nderstand the principles of soil compressibility as applied todifferent types of soil profiles.*. Discuss the procedures on ho+ to solve problems regarding the

effective stress concepts that include vertical stress on a pointbelo+ the ground surface, subsurface stress belo+ +ater surfaceand other different current conditions of soil.

". AnalyEe the effects of vertical and horiEontal stresses of soil onthe structure that is to be constructed at a depth belo+ the groundsurface.

. Calculate the magnitude of the lateral earth pressure that can beproduced on soil using the 1an%ine and Coulombs theories.

9. se ne+ geotechnical engineering materials.. Apply geotechnical engineering soft+are.

B. Apply different methods of analysis and design of the foundationcomponents of structures.?. Design various types of reinforced concrete footings of the

structures to be erected at specific locations

Co(r)e O(,line

). Compressibility of 0oils: 0ettlement due to primary consolidationof soil 4for normally consolidated of soil and overconsolidatedclays5, Consolidation settlement due to stresses caused byfooting.

*. 0hear 0trength of 0oils: Direct shear test 4normally consolidatedand overconsolidated clays5.

". /riaxial /ests of 0oil: Consolidated


41/74


. 0ets of $eights.B. &enetration &iston.?. ages K t+o dial gages.>. iscellaneous Apparatus such as mixing bo+l, straightedge,

scales, soa%ing tan% or pan, oven, drying cans, scoops, filterpaper and dishes.

$aboratory #)ercise +o. 255Consolidation /est.). Casagrande type oedometer, +hichincludes:).) Consolidation ring, internal diameter B9 mm, height *= mm.).* 6ixed ring, consolidation cell.)." Dial gauge reading to =.=) mm having a travel of at least )=

mm.). !oading device.

*. 6lat glass plate, approximately )== mm O )== mm.". 'ven +ith temperature control.. /op pan +eighing balance reading accurate to =.)= g.9. 7ernier calipers.

6. &ac%et of B9 mm 6ilter &apers.

B. 0ilicone rease or &etroleum @elly.?. 0et of 0tandard $eights.>. 0top+atch or Cloc% readable to ) second.)=. &alette Hnife.

$aboratory #)ercise +o. >550tandard &enetration /est.). Drilling 2quipment.*. 0plit


42/74

9. $ax &aper.. 'ther laboratory equipment, such as oven +ith temperature

control, drying cans, balances and pans.

$aboratory #)ercise +o. ;DApplications of eotechnical 2ngineering0oft+are.

). Computer.

*. 0oft+are &ac%age on eotechnical 2ngineering.3. &rinter or &lotter.

S(e),e Reference)

1. c Carthy, David 6. *==). #ssentials of Soil Mechanics and%oundations& !asic Geotechnics" ;th#dition.Ne+ @ersey, 0A :&rentice #all.

2. !iu, Cheng. *===. Soils and %oundations.Ne+ Ior%, 0A : @ohn$iley 0ons.

". !iu, Cheng. *===. Soil Proerties Testing Measurement and#valuation" ?th#dition. Ne+ @ersey, 0A : &rentice #all.

. 3udhu, uni. *===. Soil Mechanics and %oundations. Ne+ Ior%,0A : @ohn $iley 0ons.

9. Das, 3ra(a. )>>>. %undamentals of Geotechnical #ngineering.

3roo%sCole &ublishing Co.. 3o+les, @oseph. )>>9. %oundation Analysis and 'esign"" @ th

#dition.0A.

B. Cernica, @ohn N. )>>9. Soil Mechanics.0A:@ohn $iley and0ons, -nc.

8. /erEaghi, Harl et. al. )>>9. Soil Mechanics %or #ngineeringPractice. @ohn $iley and 0ons, -nc.

9. 0o+ers, eorge 6., 0o+ers, eorge 3. )>B>. Introductory SoilMechanics and %oundation.acmillan, Ne+ Ior%.

Co(r)e Na*e STRUCTURAL THEOR# 1

Co(r)e !e)cri+,ion/he course covers the different types of structural systems, loads and itscombinations and placement, applicable codes and specifications, andmethods of analysis for statically determinate structures.


!ecture K " units!aboratory K ) unit



Prere3(i)i,e echanics of Deformable 3odies

Co(r)e O-4ec,ive) After completing this course, the student must be able to:

). Hno+ the history of history of structural engineering, identifyvarious types of structural systems, appreciate the importance ofcodes and specifications and decide the appropriate loads to applyinto the structures;

*. -dealiEe real structures to obtain analytical models; identify the stateof determinancy and stability of structures; to %no+ the variousstructural analysis theorems and principles;

". Apply the equations of static equilibrium to analyEe the trusses,beams, frames, cables and arches;

. Develop intuition on deflected shapes of structures under loading;9. AnalyEe moving loads on high+ay and rail+ay bridges using

influence lines;. Develop confidence in structural analysis in preparation for design

courses;B. 1eflect on the consequences of analysis results to life and safety of



43/74

people;?. Develop ethnical responsibility to their clients to produce strong and

safe structures.

Co(r)e O(,line

). -ntroduction to structural 2ngineering; the analysis and design ofprocess; types of structural forms, of loading conditions andbuilding materials.

*. Analysis of statically determinate 0tructures

". Analysis of statically determinate /russes. -nternal loadings developed in structural members9. Cable and arches. -nfluence lines on statically determinate 0tructuresB. Deflections?. Approximate analysis of statically indeterminate 0tructures

La-ora,or/ E3(i+*en, None

S(e),e Reference)

Te5,-oo2)

1. 0tructural Analysis" ?th#d" Prentice all )

2. The +ational !uilding Code of the Philiines and its Imlementing

*ules and *egulations"&hilippine !a+>. aEette, anila, *=== by 6oE, 7.3. ed

4. #agen, H.D., Introduction to #ngineering Analysis, &rentice #all,

Ne+ @ersey, *==)

5. 1a(an, 0.D., Introduction to Structural Analysis and 'esign, @ohn

$iley 0ons, -nc. Ne+ Ior%, *==)

6. ahli, A.And Neville A.., Structural Analysis" A ,nified Classical

and Matri) Aroach"

th

ed. 26N 0pon, !ondon )>>B Theory ofStructures"7ol. )), /ata cra+>> by upta, 0.&., &andit, .0., And upta, 1.

7. !in, /.I. and 0totesbury, 0.D., Structural Concets and Systems

for Architects and #ngineers, )>?)

8. Hassimali, A., Structural Analysis"*nd2d, 3roo%sCole &ublishing

Company, )>>>

9. cCormac, @.C. and Nelson @.C., Structural Analysis" A Classical

and Matri) Aroach,P)>>B

10. @ohn $iley by$est, #., %undamentals of Structural

Analysis,P)>>",P

11. #arrison, #.3., Structural Analysis and 'esign: 0ome

icrocomputer Applications, *nd

2d, &ergamon &ress, )>>=12. @ohn $iley by $est, #.,Analysis of Structures& An Integration of

Classical and Modern Methods")>?>,

Co(r)e Na*e STRUCTURAL THEOR# &

Co(r)e !e)cri+,ion

/he course covers the theory of structures analysis as applied toindeterminate structures such as indeterminate beams, planar and spaceframes and trusses sub(ect to static loads; method of consistentdeformation; three


44/74



Prere3(i)i,e 0tructural /heory )

Co(r)e O-4ec,ive)

After completing this course, the student must be able to:). Apply the fundamental principles of structural analysis for

indeterminate structures.*. 2valuate the structural behavior of indeterminate structures

". 3e analytical and systematic in the approach to problemsolving

. &repare for design +or%

Co(r)e O(,line

). 1evie+ of deflections of structures*. -ntroduction to statically indeterminate structures". Approximate analysis of statically indeterminate structures. Analysis of statically indeterminate structures by method of

consistent deformation; three>B by ahli, A. And Neville A..

6. Theory of Structures" 7ol. )), /ata cra+>> by upta, 0.&., &andit, .0., and upta, 1.

7. Structural Concets and Systems for Architects and #ngineers ,)>?) by !in, /.I. and 0totesbury, 0.D.

8. Structural Analysis" *nd 2d, 3roo%sCole &ublishing Company,)>>> by Hassimali, A.

9. 0tructural Analysis, A Classical and atrix Approach,P)>>B bycCormac, @.C. and Nelson @.C.

10. 6undamentals of 0tructural Analysis,P)>>",P@ohn $iley by $est,#.

Co(r)e Na*e< STRUCTURAL !ESIGN 1 9Reinforce Concre,e:

Co(r)e !e)cri+,ion /his course is concerned +ith the design, applications and codespecifications used in structural reinforced concrete members sub(ected toflexure 9beams" girders" 1oists" lintels" girts" etc.:"tension, and compressionmembers 9columns:"combined stressed members 9beam5columns:"beam>?. Concrete Construction andboo7" ?th

#dition.c ra+>. 'esign of Concrete Structures.&rentice#all. Ne+ @ersey.

Co(r)e Na*e< STRUCTURAL !ESIGN & 9S,eel an Ti*-er:

Co(r)e !e)cri+,ion

/his course is concerned +ith the design of structural +ood memberssub(ected to flexure, compression and tension members, combined stressesand connections. /he presentation of the course is aligned +ith theprovisions of the National 0tructural Code of the &hilippines.

/his course is also concerned +ith the design of structural steel memberssub(ected to flexure 9beams" girders" 1oists" lintels" girts" etc.:"tension, andcompression members 9columns:"combined stressed members 9beam5columns:"riveted, +elded, and bolted connections using the #lastic $imitMethod, also %no+n as the Allo+able 0tress Design 4A0D5, and the Plastic$imit Method. /he course also deals +ith an introduction to the $oad*esistance %actor 'esign Method 4!16D5in designing structural steel.Applications and specifications as applied to buildings, bridges, and othersteel structures are also given emphasis. A thorough %no+ledge andproficiency in 0tructural /heory is imperative.

N(*-er of Uni,) for Lec,(re;La-ora,or/ ; Fielor2 anT(,orial

!ecture K " units!aboratory K ) unit


!ecture K " hours.!aboratory K " hours extensive exercises.

Prere3(i)i,e%Co're3(i)i,e 0tructural /heory *.

Co(r)e O-4ec,ive)


). -dentify the constituent materials of steel and timber and understandtheir behavior.

*. Apply the fundamental principles of /imber and 0teel Design.". Apply techniques in structural design and analysis of structural +ood

and steel.. 6ormulate correct design strategies based on theoretical and

situational experiences.9. 6ormulate correct design strategies based on theoretical and

situational experiences.. nderstand and apply the different types of loads to structures

using National 0tructural Code of the &hilippines.B. Appraised the local code of practice, i.e., the National 0tructural

Code of the &hilippines.?. -dentify advanced design methods.



47/74

Co(r)e O(,line

). &roperties of &hilippine $ood and !umber.*. $or%ing 0tresses of 0tructural /imber .". Analysis and design of flexural members: /theoretical and practical

considerations. N0C& 0pecifications.. Analysis and design of compression and tension members:

/heoretical and practical considerations. N0C& 0pecifications.9. Analysis and design of combined flexure and axial members:

/heoretical and practical considerations. N0C& 0pecifications.. /imber Connectors and 6asteners. N0C& 0pecificationsB. &hysical and 0tructural &roperties of 0teel. 0tructural 0teel 0hapes

and 0ections.

8. Design and Analysis of 6lexural embers: /heoretical and &racticalConsiderations. Code 0ecification&Compactness, 0lenderness,!ateral 0upport, 3ending 0tresses, 0hear 0tresses, Deflection,3eam 3earing &lates, $eb Crippling.

>. Design and Analysis of 6lexural embers: 3eams +ith Cover&lates. -deal 0ections. 3uilt. Steel Structures&'esign and !ehavior" ?th #dition. c ra+??

>. orro+, #arold $. )>?B #lements of Steel 'esign. c ra+B. Simlified 'esign of Structural Steel" ? th

#dition. National 3oo% 0tore, anila.

Co(r)e Na*e< MECHANICS OF FLUI!S

Co(r)e !e)cri+,ion /his course deals +ith properties of fluids; fluid static, hydro%inetics and



48/74

hydrodynamics; ideal fluid flo+ for past external and internal boundaries;flo+ similitude; computer and laboratory fluid experiments.


!ecture K * units!ab K ) unit

N(*-er of Con,ac, Ho(r) +eree2 !ecture K * hrs!aboratory K " hrs

Prere3(i)i,e%Co're3(i)i,e Dynamics of 1igid 3odies, echanics of Deformable 3odies

Co(r)e O-4ec,ive)


). Develop a good understanding of the properties of fluid and theprinciples of fluid behavior.

*. nderstand the principles involving physical ideas, as +ell asmathematical ones, and includes derivations and analysis ofresulting equations, +hich describe fluid behavior.

". 0olve practical problems, +hich involve numerical calculations from

+or%ing formulas, often +ith the conclusion of experimentallydetermined coefficient.

. a%e solutions and decisions on a particular problem incorporatingsocial and moral impact and put into mind that a mediocre solutionscould cause a loss of life andor property

Co(r)e O(,line ). 6undamental &roperties of 6luids*. #ydrostatic 6orces on 0urfaces

*.) /otal #ydrostatic &ressure on &lane 0urfaces*.* 6orces on 0ubmerged &lane 0urfaces 0emi. /he 3oundary !ayer in -ncompressible 6lo+>.) Definition of 3oundary layer



49/74

>.* omentum 2quation Applied to 3oundary !ayer>.*.) !aminar 3oundary 6lo+ and /urbulent 3oundary !ayer

)=. 0oft+are Application

La-ora,or/ E3(i+*en,#ydraulic 3ench.

0oft+are: $aterCAD 6lo+master &ondpac%

S(e),e Reference)

1. ays, !arry $. *==. 4ater *esources #ngineering" 2==@ #dition.0A.

2. 1obert !. Daugherty, @oseph 3. 6ranEini and 2. @ohn 6innemore.*==*. %luid Mechanics with #ngineering Alications" SI Metric#dition.0A.

3. 1ay H. !insley, @oseph 3. 6ranEini, david !. 6reyberg and David !./chobanoglous. )>>*. 4ater *esources #ngineering" %ourth#dition. 0A.

4. @ohn A. 1oberson, @ohn @. Cassidy and . #anif Chaudhry. )>??.ydraulic #ngineering" Second #dition. 0A.

5. #.$. Hing, @.'. $isler and @.. $oodburn. )>?=. ydraulics" %ifth

#dition. 1. 2.Hrieger &ublishing Company.

Co(r)e Na*e< H#!RAULICS

Co(r)e !e)cri+,ion

/his course deals +ith the analysis and hydraulic design of by systems suchas reservoirs dams, spill+ays, gates, open channels, pipe net+or%s, pumpsand turbines; sediment transport in rivers and reservoir; computer hydraulicmodeling.


!ecture K * units!aboratory K ) unit


!ecture K * hrs!aboratory K " hrs

Prere3(i)i,e%Co're3(i)i,e echanics of 6luids

Co(r)e O-4ec,ive)

After completing this course, the student must be able to:). Develop a good understanding of the principles of +ater behavior

under the influence of forces.*. nderstand the principles involving physical ideas, as +ell as

mathematical ones, and includes derivations and analysis ofresulting equations +hich describe +ater behavior.

". Develop s%ills in solving practical problems, +hich involve numericalcalculations from +or%ing formulas used for hydraulic analysisdesign.

4. a%e solutions and decisions on a particular problem incorporatingsocial and moral impact and put into mind that a mediocre solutionscould cause a loss of life andor property.

Co(r)e O(,line ). #oop tension in circular pipes and tan%s*. Dams". 1evie+ on fundamental of fluid. $ater flo+ in pipes

.) inor and a(or #eadlosses in pipes.* &ipeline +ith &umps and /urbines." 3ranching pipes

.".) &ipes in series.".* &ipes 3ranching &arallel

. &ipe Net+or%s

.9 $ater #ammering and 0urges in &ipes9. 'pen channel flo+

9.) 'pen Channel 0teady Kniform 6lo+ 6ormulas



50/74

9.* ost 2conomical and 2fficient sections9." 0pecific 2nergy channels9. Celerity, Critical 7elocity, 0ubcritical 0upercritical 6lo+s9.9 Depths of 6lo+ nder 0teady Conditions9. 2quations of gradually varying 6lo+ Conditions9.B $ater 0urface &rofiles9.? #ydraulic @ump Conditions

. #ydrodynamicsB. #ydrodynamics DesignB.) Dams and 0pill+aysB.* 6lo+ /hrough Culverts and 0treets -nletsB." $ater &rofiles nder 3ridgesB. $ater 0upply &iping

?. 0pill+ays>. ates)=. &umps)). /urbines

La-ora,or/ E3(i+*en, $atershed 0imulator&ipe Net+or%0oft+are: 0/'1CAD

S(e),e Reference)

1. ays, !arry $. *==. 4ater *esources #ngineering" 2==@ #dition.0A.

2. 1obert !. Daugherty, @oseph 3. 6ranEini and 2. @ohn 6innemore.*==*. %luid Mechanics with #ngineering Alications" SI Metric#dition. 0A.

3. !insley, 1ay H. ; 6ranEini, @oseph 3.; 6reyberg, David !.;/chobanoglous, David !. )>>*. 4ater *esources #ngineering"%ourth #dition. cra+ #ill.

4. @ohn @. Cassidy . #anif Chaudhry. )>??. ydraulic #ngineering"Second #dition. 0A.

5. #.$. Hing, @.'. $isler and @.. $oodburn. )>?=. ydraulics" @th

#dition. 1. 2. Hrieger &ublishing Company.

Co(r)e Na*e< H#!ROLOG#

Co(r)e !e)cri+,ion

/his course is concerned +ith the discussion of #ydrologic cycle; occurrenceand analysis of components of hydrologic cycle such as precipitation,evapotranspiration, infiltration, stream flo+ and ground +ater; river andreservoir sedimentation; flood routing techniques; probability analysis forhydrologic design; computer modeling for hydrologic systems.


!ecture K " units

N(*-er of Con,ac, Ho(r) +eree2 !ecture K " hours

Prere3(i)i,e%Co're3(i)i,e echanics of 6luids

Co(r)e O-4ec,ive)


). Develop a good understanding of the hydrologic cycle in terms ofthe processes and storage relationships among its components.

*. nderstand the physical meaning of different hydrologic models+hich capturestimulate selected hydrologic phenomena.

". 0olve practical problems, +hich involve numerical calculations from+or%ing formulas used for hydrologic analysis and design.

. a%e solutions and decisions on a particular problem incorporating

social and moral impact and put into mind that a mediocre solutionscould cause a loss of life andor property



51/74

Co(r)e O(,line ). #ydrology and the #ydrologic Cycle).) Difference 3et+een #ydrology and #ydraulics.).* /he #ydrologic Cycle and the #uman -mpact.)." -nterrelationships of &hases of the #ydrologic Cycle:

2vapotranspiration, &recipitation, -nfiltration&ercolation,0urface0ubsurface 1unoff, round+ater.

). &hilippine $atersheds: Delineation of Drainage Area, 0ub>*. 4ater *esources #ngineering"%ourth #dition. cra+ #ill.

4. Cho+, 7en /e; aidment, David 1.; ays, !arry $. )>??.Alied ydrology.cra+ #ill.

5. !insley, 1ay H.; Hohler ax A.; &alhus, @oseph #. )>B?.ydrology for #ngineers" SI Metric #dition. Ne+ Ior% 0A.

Co(r)e Na*e< 8ATER RESOURCES ENGINEERING

Co(r)e !e)cri+,ion

/his course deals +ith the principles and analysis of +ater resourcessystems such as multi


53/74

Distribution, ses of -0 in $12, !aguna !a%e and anila 3ay-nteraction, /ools Development 0oft+ares Approaches


54/74

Co(r)e O(,line

). /he #igh+ay and its Development: #igh+ay in the &hilippines,,&lanning difficulties. #igh+ay programming. Communityinvolvement. #igh+ay economy. !ocation of the proposed high+ay.#igh+ay plans and specifications.

*. Designing the #igh+ay: Consistency. Design speed. Cross


55/74

Co(r)e !e)cri+,ion

Design and construction aspects of #igh+ay 0urfaces and 1ail+aysuide+ays; Capacity and !evel of 0ervice of Air, 1ail, and high+ays.2nvironmental impacts and their mitigation of transportation system; /raffic>*Davis, /roxell #a+c%". Construction aterials, 0mith. aterials of Construction 2d )>>= Chandigarah9. /esting of 2ngineering aterials )>?* ildey, urphy 3ragman. aterials /esting 3lac%o+s%i 1ipling

B. 0trength 0tructure of 2ngineering aterials

Co(r)e Na*e< CONSTRUCTION METHO!S AN! PRO=ECT MANAGEMENT

Co(r)e !e)cri+,ion

/he course deals +ith the principles of construction methods and equipment,management and their applications. -t covers pro(ect planning, scheduling,monitoring and control. -t also includes concepts on organiEation, safety,information systems and computer applications. 0tudents are givenopportunities to visit actual pro(ect sites and observe the application of thesetheories in construction pro(ects.

N(*-er of Uni,) for Lec,(re;La-ora,or/; Fielor2 an

T(,orial




Prere3(i)i,e%Co're3(i)i,e 9thIear 0tanding

Co(r)e O-4ec,ive) After completing this course, the student must be able to:). nderstand the construction pro(ect cycle from inception, planning,

execution, testing and certification.*. nderstand construction pro(ect requirements such as permits and

licenses, clearance, and compliance to all applicable la+s andordinances, etc;

". 1ead and interpret construction plans, +or%ing dra+ings, and revisecontract documents, estimates and technical specifications;

. nderstand the components of the /erms of 1eference 4/'15 for

professional services and biddingtendering processes, a+ard andacceptance;

9. &repare and update construction schedule and +or% programs;



57/74

. nderstand construction methods, equipment, materials andmanpo+er control;

B. nderstand temporary facilities requirements of a constructionpro(ect;

?. nderstand the existing local labor la+s and regulations

Co(r)e O(,line

). Contracts and 0pecifications;*. Construction &ro(ect 'rganiEation;

". &lanning and 0cheduling 4&21/C&5;. Construction 2stimates and 7alues 2ngineering9. Construction ethods and 'perations;. Construction 2quipment 'perations and aintenanceB. Construction anpo+er 0afety;?. Computer Applications in Construction anagement;>. Construction 1eports)=. Construction 6ield+or%)). Construction Disputes)*. 6ield+or%: 'bservation of construction pro(ects


S(e),e Reference)

). Construction &lanning 2quipment ethods, latest edition*. &ro(ect anagement for 2ngineering and Construction, latest edition

". Construction anagement #andboo%, CD6. Constructors &erformance 2valuation 0ystem 4C&205 -mplementing

uidelines, C-A&

Co(r)e Na*e< CI"IL ENGINEERING LA8S; CONTRACTS; AN! SPECIFICATIONS

Co(r)e !e)cri+,ion

/his course deals on the principles and fundamentals of the la+s onobligations, contracts, and professional ethics that are applicable to the civilengineering profession. -t is designed to prepare civil engineering studentsfor professional practice. /opics on the perspective of the student as futurepractitioners, contractors, and employees in the field are also givenemphasis. /hey include the study of code of ethics, legal procedure in

the practice of civil engineering in the &hilippines, ethical relations of anengineer +ith fello+ professionals, clients, and general public, elements ofcontracts, obligations, Civil 2ngineering !a+, 41A 95 National 3uildingCode, labor la+s, 2


58/74

Co(r)e O(,line

Construction MAST#* SP#CI%ICATI+S"2lastomar% Corporation, &hilippines

5. ead, ead, and A%erman. )>>*. Contracts" Secifications and#ngineering *elation. 0A& cra+?>. The Civil Code of the Philiines.anila:National 3oo% 0tore.

B. &hilippine 3idding Documents for overnment Contracts.



59/74

F. TECHNICAL ELECTI"ES

F.1 S,r(c,(ral

Co(r)e Na*e< EARTH$UA@E ENGINEERING

Co(r)e !e)cri+,ion

/his course deals +ith the fundamentals and basic concepts of seismicdesign as +ell as the minimum standards for the analysis, design, and

construction of earthqua%e resistive structures. /he course covers theintroduction to seismology and seismic analysis of buildings and structures,effects of earthqua%e on bearing capacity, procedure for the design ofearthqua%e resistant structures, calculation of seismic forces, and dynamicanalysis of structures. -t also deals +ith the determination of loads ofstructures due to motions, methods of analysis for lateral forces,approximate dynamic analysis, time history analysis, concepts of mass,damping, stiffness of structures, design for inelastic behavior and retrofittingof existing building. Critical building configurations and appropriate methodsof analysis are also given emphasis. Applications and specifications asapplied to vertical and horiEontal structures are also given importance. Athorough %no+ledge and proficiency in 0tructural /heory is imperative.

N(*-er of Uni,) for Lec,(re;

La-ora,or/; Fielor2 anT(,orial

!ecture K " units


!ecture K " hours

Prere3(i)i,e%Co're3(i)i,e 0tructural /heory *.

Co(r)e O-4ec,ive)


). -dentify earthqua%e engineering.*. nderstand the general theory of vibration of single and multi

degree


60/74

9. Minimum 'esign $ateral %orces and *elated #ffects&2arthqua%e!oads and odelling 1equirements, &2ffects.

10. $ateral %orce Procedures for !uilding Structures& 0election of!ateral 6orce &rocedure, 0eismic Design and Analysis, /he 0tatic!ateral 6orce &rocedure. 7ertical Distribution of 6orces.

11. $ateral %orce Procedures for !uilding Structures& /he 0implified0tatic !ateral 6orce &rocedure, &2ffects, 0torey Drift !imitations.7ertical Component of 6orce.

12. $ateral %orce Procedures for +on Structural #lements& Design of!ateral 6orce, 0pecification of !ateral 6orces, 1elative otion2quipment Attachment, Alternative Designs.

13. $ateral %orce Procedures for +on !uilding Structures& Definition andCriteria, $eight, &eriod, Drift, -nteraction 2ffects, Non 3uilding0tructures, 1igid 0tructures, /an%s +ith 0upporting 3ottom, 'therNon 3uilding 0tructures.

14.Analysis of %rames Sub1ected to $ateral $oads& 6orces, Distributionof !ateral 6orcesJ&ortal ethod, Distribution of !ateral 6orcesJ86actor ethod.

15. Introduction to the *esonse Sectrum Analysis and 'esign& /ime#istories, 2arthqua%e 1esponse 0pectrum, 2arthqua%e Design0pectrum.


S(e),e Reference)

1. -7'!C0. *==. #arth(ua7e Portfolio.anila, &hilippines.2. Association of 0tructural 2ngineers of the &hilippines. *==".

#arth(ua7e 'esign Manual 0olume


61/74

4. AnalyEe the behavior of statically indeterminate prestressedconcrete beams.

Co(r)e O(,line

). Difference bet+een prestressed and reinforced concrete*. 0tresses in bending, shear and torsion". 2lastic design of prestressed concrete beams.. !osses of prestress

9. Deflections due to prestress. Anchorage stressesB. 0tatically indeterminate prestressed concrete beams.?. ltimate strength analysis.


S(e),e Reference)

1. Association of 0trutural 2ngineers of the &hilippines. *==). +ationalStructural Code of the Philiines 0ol. < 8 2. &hilipppines.

2. cCormac%, @ac%. )>>?. 'esign of Prestressed Concrete. Addison>?. Prestressed Concrete 'esign. 0pon &ress.4. ilbert, 1. -., ic%elborough, Neil. )>>=. 'esign of Prestressed

Concrete. 1outledge.

5. Nilson, Arthur #. )>?B. 'esign of Prestressed Concrete. $iley 0ons.6. Naaman, Antoine. )>?*. &restressed Concrete Analysisand

'esign. cra+


62/74

2. Association opf 0trutural 2ngineers of the &hilippines. *==).+ational Structural Code of the Philiines 0ol. 2. &hilipppines.

3. AA0#/'.)>>?. $*%' !ridge 'esign Secifications Set 9SI,nits:. AA0#/'.

4. Santha%os, &etros. )>>". Theory and 'esign of !ridges.$iley>>. 4ater *esources #ngineering. &rentice#all.

3. Department of &ublic $or%s and #igh+ays. )>>9.Standard Secification for Public 4or7s and ighways 90olume I FStandard Secification for Irrigation" %lood Control and 'rainage:.D&$# 'ffice of the 0ecretary, 3onifacio Drive, &ort Area, anila.

4. Cuenca, 1.#. )>?>. Irrigation Systems 'esign 5 An#ngineering Aroach. &rentice #all, Ne+ @ersey, 0A.

5. National -rr

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