| Engineering
Graphics |
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Applied Mechanics
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Introduction of vectors, equilibrium
of mass, equivalence of forces, balance of rigid bodies, truss analysis,
internal forces, friction force, gravity, emetic center, moment of inertia,
virtue work, kinematics of a particle, kinetics of a particle, planar kinematics
of a rigid body, planar kinetics of rigid bodies, spatial kinematics of
a rigid body, and spatial kinetics of a rigid bodies. |
| Fluid Mechanics |
Introduction of ideal fluids, incompressible
fluid in circular tube and in non-circular tube, flow in open channel, boundary
layer, flow of compressible fluid, and traction. |
| Hydrology |
Hydrology circulation, precipitation,
seepage, evaporation, ground water hydrology, surface water hydrology, hydrology
statistics, and frequency analysis. |
| Structures |
Introduction of determinate and
indeterminate truss and frame displacement and force behavior, influence
line of determinate structure, using of area-moment, conjugate beam and
unit loading methods to determine structural displacement, slope-deflection
method, least work, and moment distribution methods. |
| Reinforced Concrete |
Mechanical behavior of reinforced
concrete, safety consideration on designing, designs on beam, column, and
plates. |
| Soil Mechanics |
Soil and rock, constituents of soil,
classification of soil, seepage, the concept of effective stress, stress
in soil, compressibility of soil, shear strength of soil, lateral stress,
slope stability, and compaction. |
| Engineering Geology |
Introduction on rock properties,
fundamental properties of soil, discontinuity in rock, faults and folds,
application of geology on engineering. |
| Surveying |
Precise taping, leveling, triangulation,
adjustments of level nets and triangulation figures, and introduction of
photo-geometry. |
| River Engineering |
Introduction on the characteristics
of river, surveying record of river, flow-ability of river, structure and
material of river engineering, management on river etc. |
| Coastal Hydraulics |
Concept of wave, fundamental theory
of wave, application of hydrodynamic principles to coastal zones etc. |
| Fluid Mechanics Lab. |
Experiments, demonstration, and
analysis of basic fluid phenomena and exercises in lab. techniques. |
| Engineering Statistics |
Regression analysis, random variables,
probabilities, Uni-variegate statistical methods, analysis of variances,
distributions and transformations, sampling and variability. |
| Harbor Engineering |
Investigation of harbor, condition
of planning, function, design and construction of marine structures. |
| Foundation Design |
Bearing capacity of shallow and
deep foundations, mat foundation, retaining wall, brace excavation, pier
foundation etc. |
| Structural Design |
Introduction design code and methodogies
of steel structures. Allowable stress design and Load resistance factor
design method on steel compression member, tension member and shear design. |
| Open Channel Hydraulics |
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| Ocean Engineering |
¡@Function and structural types
of ocean facilities, design condition and forces on oceanic structure, plat
form marine structure, etc. |
| Site Investigation |
Introduction on soft ground condition,
the purpose of site investigation, description and classification of soils
on site, boring of soil, index properties of rock, determination of rock
strength on site, ground water investigation, monitoring system etc. |
| Water Supply |
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| Soil Dynamics |
¡@One to three dimensional wave
propagation theory, dynamic properties of soils, liquefaction of sand, machine
foundation design, dynamic bearing capacity, dynamic load on retaining wall,
dynamic pile analysis. |
| Boundary Layer Theory |
Governing equations, viscosity and
the concept of boundary layer, Stokes first problem, Prandtl boundary layer
equation, intrioduction of Blasius solution, and the transition from laminar
flow to turbulence flow etc. |
| Design And Case Studies
of Harbor Design |
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| Civil Engineering Construction |
Earth work construction, construction
procedures of bored and driven piles, constructions of girder bridge, advance
shoring bridge, incremental launching method etc., construction of rock
and soil tunnels. |
| Economic Aspects on Hydraulic
Works |
Principle of resource allocations,
benefit-cost analysis, economic aspect on water supply, environmental decision
etc. |
| Statistical Hydrology |
¡@Probability distributions applicable
to hydrologic events, analysis of extreme events, floods and droughts, regression
and correlation analysis of hydrologic variables. |
| Ground Water Management |
Ground water circulation, ground
water hydraulics, ground water contamination, evaluation of ground water
resources, monitoring on ground water. |
| Wind Wave Theory |
Fundamental theories of fluid mechanics,
wave theory introduction, energy transfer between waves, Phillips theory,
Hasselmann theory, and critical layer theory etc. |
| Earthquake Engineering |
¡@Concept of earthquake, ground
surface effects due to strong earthquakes, earthquake response spectrum,
dynamic structural analysis, earthquake design on structures. |
| Structural Stability |
¡@Columns, beam-columns, rigid frame,
and beam stabilities. Linear and nonlinear stability. |
| Wave Theory |
Wave theory, governing equation,
linear and nonlinear solutions of governing equation, wave forces. |
| Reliability Analysis |
Probability and statistical theories
introduction,, distributions, decision making analysis, Monte Carlo simulation,
structural risk analysis. |
| Advanced Steel Structure |
Fundamental steel structure design,
working stress design method, limit state design, LRFD design, earthquake
resistance design, failure and buckling of steel structures. |
| Advanced Soil Mechanics
Lab. |
Application of new testing machines
on soil mechanics, data acquisition system application on soil mechanics,
soil static testing, constitutive law of soil, dynamic tests of soil, and
the dynamic behavior of soils. |
| Hydrology Analysis |
Occurrence and movement of water
on earth, hydrologic measurements, meteorology, precipitation, evaporation-transpiration
and runoff, frequency analysis. |
| Rock Mechanics |
Classification and index properties
of rock, strength and failure criteria of rock, in-situ stress measurement
of rock, deformability of rock, property of rock joint, effect of joints
on rock properties, application rock engineering. |
| Advanced Foundation Engineering |
Design concept of pile foundations,
evaluation of pile bearing capacity, dynamic pile foundations, pile load
test, pile settlement, group piles design, laterally loaded and friction
piles, caissons, and sheep pile design. |
| Evaluation of Environmental
Effect |
Effects of water contamination,
noise, air pollution, soil contamination etc. |
| Case Studies and Management
of Geotechnical Eng. |
planning and management of geotechnical
eng., soil improvement, lateral pressure of deep excavation, shield tunneling
method on geotechnical eng., geotextile application on soil mechanics, monitoring
system application etc. |
| Advanced Foundation Engineering |
Pile type and function, pile hammer
and construction technology, static bearing capacity of pile foundation,
dynamic and wave eq. on pile analysis, design of deep foundation. |
| Site Investigation |
Investigation planning, boring and
sampling, in-situ testing technology, undisturbed soil sampling, and lab.
testing. |
| Seepage Theory |
Darcy's law, property of seepage,
capillary effect, flow net theory, boundary condition, constraint anisotropic
flow, finite element application on seepage, seepage force, electrical analog,
kele-shaw model, relaxation method, and the method of fragments. |
| Finite Difference Method |
Application of FDM on solid mechanics,
fluid mechanics, wave mechanics, etc. |
| Ground Water Management |
Occurrence, distribution, and movement
of water below the surface of the earth, groundwater resources, and dependable
supply rates from wells, artificial recharge, and waste disposal. |
| Irrigation and Drainage |
Water requirement of plants, efficiency
of irrigation, irrigation methodology, water quantity requirement of irrigation,
irrigation systems, drainage systems. |
| Partial Differential Equations |
The quasi-linear equation of first
order, initial conditions, linear and quasi-linear equation of second order,
heat flow problems, Poison's integral, the wave equation, Duhamel's superposion
integral, traveling waves, Laplace transform method etc. |