Semester 1
Semester 2
Semester 3
Semester 4
Semester 5
Semester 6
Semester 7
Semester 8
Semester 1
| Nama Mata Kuliah (Course Name) | Gambaran (Overview) |
|---|---|
| Agama (religion) | Students are able to describe the important of religion, epistemology of Islam and understanding qur’an and Sunnah in conjunction to knowledge. |
| Pancasila | Students can analyze Pancasila education in university carefully and critically, systematically describe Pancasila in the context of Indonesian history, critically connect contextual problems with Pancasila as ideology and basic state an describe Pancasila as a philosophical system and and ethical system critically and independently |
| English for Academic purposes | Students are able to understand general terminology in interpersonal transactional and spoken texts, able to understand simple texts related to everyday life and academic fields, able to communicate in the context of simple transactional and interpersonal communication and able to write simple transactional and interpersonal texts related to the field of study. |
| Kalkulus (calculus) | The discussion of functions and graphs covers all types of functions, so that in learning the next mathematical concept of limits, continuity, derivatives and integrals it includes all functions. Derivatives are a useful tool for solving problems in daily life, especially the maximum and minimum problems. Integral is an antiderivative, starting with the introduction of indeterminate integrals, followed by certain integrals which are useful tools for solving everyday problems. |
| Fisika (Physics) | This course contains material about Magnitude, One-Dimensional Motion (includes: straight irregular motion, irregularly changing straight motion, free falling motion, harmonized motion or harmonious vibration), Two Dimensional Motion (including: parabolic motion and circular motion), Concepts of Style, Effort, Potential Energy, Gravitational potential energy, Elastic potential energy, Energy conservation law, Conservative and decipative forces, Momentum, Force moment, Moment of inertia and equilibrium, Voltage, Elasticity, Strain and Stress-strain Graph. |
| Praktikum Fisika (Physics lab work) | Tis course describe the experimental results of measurement, melting heat of ice and water evaporation, the results of force experiment, stem bending experiment, viscosity and oscillation. |
| Teknik Komunikasi (communication skills) | The importance of communication. Factors that influence communication. Self concept and self image. Optimistic and confident. Emotional Intelligence. Concept of leadership. Tips for successful presentations and leadership stories. Psychology of the world of work. |
| Struktur Statis Tertentu (Basic structural analysis) | These course students will be taught about Understanding forces, Types of placement and loads acting on structures, Understanding and calculating forces in: axial forces, latitude, maximum moments and minimum moments, Analysis of loads on cantilever beams. Load analysis on simple beams, Lines of influence and their use on simple beams, Definition and kinds of Gerber beams, Gerber beam completion by analytical means. Completion of Gerber beams by graphical, Indirect load, Completion of Gerber beams by means of lines of influence, Analytical understanding and completion of three-joint curves, Completion of three-joint curves by means of lines of influence, Completion of three-joint portals by analytical means and influence Lines. |
| Bahan Bangunan (construction material) | This course is designed so that students understand the properties of materials both understanding the chemical / physical nature of building materials to underlie a construction of civil engineering infrastructure. |
| Struktur Bangunan (building structure) | This course contains Introduction and Function of civil buildings: Buildings, roads, bridges, seaports, airports, irrigation, dams. reservoirs, retaining walls. |
| Konsep Rekayasa (engineering concept) | This course provide a comprehensive understanding bout engineering, given the historical development and the influence of engineering to civilization, more detailed engineering, such as branches of engineering, jobs that can be done by Civil Engineer, Human Resources Engineering Support, or field of expertise that helps the work of civil engineer, etc. |
Semester 2
| Nama Mata Kuliah (Course Name) | Gambaran (Overview) |
|---|---|
| Ibadah & Muamalah | Ibadahh include prayer, zakat, fasting and pilgrimage. While muamalah problems (our relationship with fellow humans and the environment), world problems, such as eating and drinking, education, organization, and science and technology, are based on the principle of “may” (jaiz) as long as there is no strict prohibition from Allah and His Messenger. |
| Standardized Test Preparation | Students should take TOEP (Test of English Proficiency) test provided by language center of UMS. |
| Statistika & Probabilitas (statistic) | Data collection technique. Sampling and data presentation. Frequency distribution (relative, cumulative). Descriptive statistics (mean, mode, median, standard deviation, variance). Elements of set theory. Basic understanding of probability. Sampling technique. Normal distribution. Point and interval estimates for one mean. Estimated difference in the two means. Estimating proportions. Variance and proportion. Hypothesis testing (noll and counter hypothesis). One-sided test – twoway. Test hypotheses about mean / variance and proportion and proportion. Regression analysis. Correlation analysis. |
| Aplikasi CAD/CAE (CAD/CAE application) | In engineering work, drawing is a very important medium to explain the details of structural work. Therefore civil engineering students need to understand the principles of technical drawing properly and correctly in order to communicate the results of their work properly. In addition to understanding the principles of technical drawing with CAD / CAE application courses students are expected to understand the tools and assistance programs in Technical drawings so that it makes it easier for their work. In this course, you will learn about the basics of technical drawings, technical drawing tools, floor plan drawings, visuals, pieces and detailed drawings of civil buildings, the introduction of 2-dimensional and 3- dimensional AUTOCAD. In order to be able to follow this course well, previously students had to take Building Structure and Mathematics I. |
| Kalkulus lanjut (advanced calculus) | A function with two changes is a function in a three dimensional space, here also we will learn about the higher integral, the double integral and the triple integral. The two-fold internal and triple integrals discussion begins with an understanding of the integrals and their properties. This course will also study a differential equation that is an equation that contains two or several derivatives of an unknown function, as well as vector analysis which is simply a multiplication in a vector. |
| Mekanika Fluida (fluid mechanics) | Liquid properties. Hydrostatic pressure. Floodgate (the principle of hydrostatic force balance). The stability of floating objects. Liquid in relative equilibrium. The Bernoully Law Principle. Principles of Conservation of Momentum. Flow through the boiler and the hole. |
| Praktikum Mekanika Fluida (fluid mechanics lab work) | Loss of energy due to pipe friction. Losing energy due to curves. Loss of energy due to changes in appearance. Loss of energy due to flow through the hole. Venturimeter. Fluid Beam (High Fluid Beam). Force on the jet of fluid. |
| Dasar-dasar Rekayasa Transportasi (Introduction to transportation engineering) | This course contains knowledge / knowledge about the basic concepts and things that cause transportation include: basic theory, modes of transportation, transportation infrastructure, related fields, performance of transportation facilities and legislation relevant to transportation |
| Struktur Rangka Batang (truss structural analysis) | The truss structure is widely used in the world of civil engineering for various types of building structures including bridges, towers, roofing horses and so forth. To plan a truss structure that is technically strong and stable, and economically costeffective, it requires the ability to prepare and analyze the truss structure. Statics IIcourse material covers the preparation of various kinds of truss and analysis of truss style with a variety of methods. |
| Ilmu ukur tanah (surveying) | Soil Measuring Science (Plan Surveying) is a part of Geodesy Science which is a science, art and technology to present information on the surface of the earth both natural and man-made. Soil geometry for the field of civil engineering (buildings, roads, bridges and water buildings) has no small contribution as a provider of spatial information for planning and staking out of buildings. Soil geometry discusses the concept of Soil Measuring, Error Theory, Types of measurement of vertical base frameworks, Types of measurement of horizontal basic frameworks, Point Detail Measurement, Flat Data Processing, Polygons and Tachymetry, Coordinate Systems and Map Projection, Area Calculations, Calculations ” Cut “and ” Fill “, Digital Mapping and Geographic Information Systems. |
| Praktikum Ilmu Ukur Tanah (surveying lab work) | The existence of Land Measurement activities is to provide measurement data and its processed products in the form of maps and drawings for modeling and decision-making aids in the development cycle of civil engineering work. In this practicum a basic knowledge and skills in map making and applied measurement, mapping and map exploration for civil engineering work are given. Here will be discussed about the introduction of land measurement tools and data processing, measurement of the vertical nature of the basic framework, measurement of horizontal basic polygons, measurement of the tachymetry of the detailed points, data processing, map making and contour line drawing, introduction of digital mapping and geographic information systems. |
Semester 3
| Nama Mata Kuliah (Course Name) | Gambaran (Overview) |
|---|---|
| Islam dan IPTEKS (Islam science & Technology) | students are able to define of mind and revelation, the position of mind and revelation in understanding of Islam and creation of mankind in conjunction with mind and revelation, describe science and important of science, describe epistemology of science and Islam, also understanding of code of conduct in science as well as Principe Islam in science and technology, able to review of history the development of science, modern technology and its contribution in Islam. And the the Al-qur’an and modern science an understand revolution of science and technology, understanding of scientist moslem biography and its important inventory in science and technology as well as technology development. |
| Matematika Teknik (engineering mathematics) | Engineering Mathematics contains material techniques for solving problems that are formulated mathematically by way of count operations. |
| Mekanika Bahan (mechanics of materilas) | Stress and strain due to internal forces. The center of weight and inert moment are homogeneous and composite in appearance. The effect of shifting the center of weight and rotation of the axes. Pure bending, shear stress, torque on the beam. Component stress and stress analysis in fields. Stress – strain analysis with Mohr circles. Stem design based on stress. Deflection of certain static beams. Deflection in the truss structure. Analysis of the stability of buckling in the compressive stem. Elastika line on the beam. Tensile stress, tensile, shear, elasticity, poisson ratio, structural elements that are partially loaded. Hooke’s Law, thermal effects, inclined plane stress, strain energy, shock loads, repetitive and fatigue loads, stress concentrations, stresses in the beam. |
| Hidraulika (Hydraulics) | Real Liquid Substance Flow: Terminology of real liquid, Viscosity of real liquid, Type of viscous flow. Real Liquid Substance Flow: Law of friction resistance, Flow in pipes, Turbulent flow and Reynolds voltage. Real Liquid Substance Flow: Prandtl mixed equations, boundary layer theory. Flow in Pipes: Loss of flow power, Speed distribution. Flow in Pipes: Average speed, Friction in pipes. Flow in Pipes: Empirical equation of flow in pipes, Flow in square pipes. Flow in Pipes: Loss of secondary power flow. Steady Flow in Pipes: Power lines. Flow Through Piping Systems: Series connection pipe, parallel connection pipe, Branched pipe, Pipe network. Uniform Flow in Open Channels: Open channel terminology, Classification of flows in open channels. Uniform Flow in Open Channels: Uniform flow analysis, Open channel economic look analysis. Dimension Analysis: Benefits of dimensional analysis, Dimensional figures. Dimension Analysis: Analysis of dimensionless numbers. |
| Prakt. Hidraulika (Hydraulics lab work) | Steady uniform flow. Flow through a wide threshold. Flow through weirs and water jump observations. Flow through triangular weirs and observations of specific energy flow. Steady flow in reality on the ground is not / rarely can be found. This flow can only be found by human hand engineering (in the laboratory), the characteristics of this flow are the values of speed, height of water and pressure and discharge at all times and the same place. By means of this laboratory flow is made and compared the values of the roughness of manning, strikler, chezy in theoretical tables (in the reference book) and in experiments. |
| Bahasa Pemrograman (computer programming) | This course gives a description to civil engineering students who later are expected to be able to understand programming languages as a universal language in engineering. A good understanding includes an understanding of the programming flowchart, arithmetic operations, program writing rules, and the use of basic and advanced microsoft excel to help solve the problem of calculating and making civil works reports. Regarding that this course is delivered to first semester students, there are no prerequisite courses to take it. |
| Analisis Struktur Portal (frame structural analysis) | The introduction of static structures is indeterminate. Application of Clapeyron law. Indeterminate static analysis with the clapeyron method for continuous beams and elastic support. SFD, BMD, and NFD depictions. Application of the Clapeyron method with the influence of zetting (vertical change). Application of the Clapeyron method in the presence of temperature changes. The application of the Clapeyron method on elastic support, the application of the clapeyron method on an indeterminate statically indeterminate portal, depictions of SFD, BMD and NFD. Application of the Clapeyron method for sway portals, depictions of SFD, BMD and NFD. Application of the cross and C.T. methods. Morris for the analysis of static beam structures indefinitely, depictions of SFD, BMD and NFD. The application of the cross method for portal analysis is not statically indeterminate, drawing SFD, BMD and NFD. The use of the cross method for the analysis of the static shaking portal is not certain, depicting SFD, BMD and NFD. The use of cross methods for multilevel portal analysis, depiction of SFD, BMD and NFD. |
| Rekayasa Lalu Lintas (traffic engineering) | This course contains knowledge / knowledge about interactions that occur between transportation components which include: the basic theory of traffic flow; characteristics, performance and level of continuous service (on roads); and the characteristics and regulation of non-continuous currents (at intersections). |
| Tugas Rekayasa Lalu Lintas (traffic engineering assignment) | This course contains knowledge / knowledge about the theory, the process of taking (collecting) and analyzing traffic data, which includes: geometric data, environment, vehicle and pedestrian traffic volumes (at sections or intersections), travel time, vehicle speed, delays , the time between (headway), the distance between (spacing) and the gap. |
| Dasar-dasar Mekanika Tanah (Basic soil mechanics) | Land as a natural material is very diverse in types, so its ability to support the burden of working on it is also very different. The carrying capacity of the soil will be greatly influenced by the mechanical properties present in the soil. Mechanical properties in the soil are influenced by elements present in the soil. This course studies the distribution of grain size in soils, the relationship of elements in the soil, the effect of water on soil consistency, soil classification, soil bearing strength and pressure distribution in the soil. |
| Praktikum Mekanika Tanah Dasar (Basic soil mechanics lab work) | Land as a natural material is very diverse in types, so its ability to support the burden of working on it is also very different. The carrying capacity of the soil will be greatly influenced by the mechanical properties present in the soil. Mechanical properties in the soil are influenced by elements present in the soil. This course studies the distribution of grain size in soils, the relationship of elements in the soil, the effect of water on soil consistency, soil classification, soil bearing strength and pressure distribution in the soil. |
Semester 4
| Nama Mata Kuliah (Course Name) | Gambaran (Overview) |
|---|---|
| Kewarganegaraan (civics) | Students can analyse contextual problems about citizenship, develop positive attitudes and show good behaviours for supporting the spirit of nationalism and love for their country, analyse contextual problems about citizenship, develop positive attitudes and show good behaviours for developing advanced democracy, analyse contextual problems about citizenship, develop positive attitudes and show good behaviours that support legal awareness and diversity, able to harmonize the obligations and rights of citizens in a democracy that embraces the sovereignty of the people and deliberations for consensus and able to understand and apply the urgency of National Integrity as one of the parameters of Unity and National Unity. |
| Kemuhammadiyahan | Students are able to analyze Muhammadiyah from a historical perspective. ideological perspective and structural perspective. |
| Rekayasa Hidrologi (Hydrology Engineering) | Hydrology is a branch of study that studies the origin of water events, and their distribution and reaction to human needs. Hydrology is a basic science in the planning of hydraulic buildings (eg flood plan analysis, rain plans, water availability) which is very much needed in the analysis of the building design. Described also about the hydrologic magnitude cycle due to the change of seasons (rain and dry). |
| Struktur Kayu (wood structure) | Wood Structure course is a course that contains the introduction of wood which consists of the properties of wood, the level of durability and strength of wood, modulus of elasticity and tension of wood permits, as well as factors that affect the strength of wood. Planning a tool to count the moments and forces that work, along with the dimensions of the trunk on a wooden structure |
| Teknologi Beton (concrete technology) | Concrete is a building material that is widely used for construction, improvement and improvement of infrastructure. Demands of quality are very prominent along with the increasing needs. To accommodate the demands it is necessary to have detailed knowledge of concrete stacking materials (cement, water, aggregate, added material) to support the quality of concrete. No less important is how to do concrete processing accurately and measurably starting from the design / calculation of concrete design mix. To guarantee reliable quality, appropriate concrete testing and evaluation methods are used. Knowledge of various types of concrete to translate the need for concrete usage specifications is strongly recommended |
| Praktikum Teknologi Beton (concrete technology lab work) | Deepening of lecture material / Concrete Technology theory related to concrete stacking materials, concrete processing, concrete quality control and types of concrete are carried out as close as possible to field conditions. The laboratory is a means for students to do this through a number of practicum eyes which are strived to find out the characteristics of concrete, fresh and hard concrete stacking materials up to the quality control of the concrete results of mix design and processing. In the end, students can apply the theory that has been obtained from lectures in the laboratory that hopes can be used as a reference in the work world. |
| Analisis Struktur Metode Matriks (matrix method for structural analysis) | Matric algebra, including: matrix operations (multiplication, addition, subtraction, inverse matrix), matrix decomposition theory, simultaneous linear equation solutions, and matrix partitions. Introduction to the theory of elasticity, equilibrium and structural compatibility, the degree of static and dynamic uncertainty. An introduction to the method of flexibility and stiffness. Arrangement of stiffness matrices for structural elements of beams, truss, and frame work (rigid frame). The principles of coordinate transformation, determination of boundary conditions and preparation of overall stiffnesss matrices, computation of forces and deflections in beam structures, trusses, and frame work (rigid framework). Examples of calculations on continuous beams, truss structures, and rigid portals with the help of SAP 2000 and NASTRAN application programs. |
| Desain Geometrik Jalan Raya (Highway Engineering) | Geometric meanings and objectives, planning conditions, factors considered, understanding of vehicle traffic. Visibility: understanding and type, conception of design, determination of visibility. Cross section of the road: understanding, parts and functions, conception of design. Factors to consider in road section design, LL orientation & prediction, speed & vehicle plan according to AASHO, PPGJR ’90 and 92. Geometric planning of roads: understanding, circumference conditions and conditions, principle of equilibrium, basic equation of friction coefficient, maximum transverse tilt, fingers minimum finger / maximum arch level. Superelevation: methods, how to change diagrams, how to make diagrams, transition arcs. Horizontal alignment: types, conceptions of alignment, widening of the pavement, freedom from the side. Vertical Alignment: understanding, conception of road ramps, maximum climb length, vertical arch shape. Vertical convex / concave design considerations: considerations, comfort, safety, drainage, flexibility of form, planning guidelines. Horizontal – vertical alignment coordination. Form of cohesiveness between horizontal curvature – vertical & Numbering / stationing. Geometric planning application:. Map identification, planning provisions. Advanced applications: preliminary survey, topography, geotechnical, hydrological, environmental impact treatment, calculation & planning. |
| Tugas Desain Geometrik Jalan Raya (highway engineering assignment) | Basic map identification: topography, land use, geology, map scale orientation. Road alignment planning: map enlargement & copying, consideration factors, design criteria according to AASHTO – PPGJR ’90’ 92, terrain classification. Long profile planning: cut and fill, road ramps, typical cross. Calculation of horizontal alignment. Calculation of vertical alignment. Horizontal – vertical alignment coordination. Depictions: road alignment, long profile, road plans, curved data. Depiction of drainage facilities, bridges, road meetings. |
| Mekanika Tanah Lanjut (advanced soil mechanics) | One element that is in the soil is water. If the water flows between the pores of the soil is called seepage. In water retaining buildings such as dams, weirs and plaster the influence of seepage needs to be studied carefully. The effect of seepage can reduce active soil pressure so that the strength of the support is reduced. In clay soil the presence of a lot of water will make the code saturated and its properties become soft. In such conditions, if you get an additional load of water will come out of the soil pore which is then known as the consolidation process. Consolidated land will cause buildings that stand on it to decrease. This course will study in depth the problem of seepage and consolidation. |
| Praktikum Mekanika Tanah lanjut (advanced soil mechanics lab work) | California Bearing Ratio (CBR) testing. Swelling test with California Bearing Ratio. Free compressive strength testing. Direct shear testing. Permeability testing. Triaxial testing of clay. Triaxial testing of sand soil. Consolidation Testing. Testing boring and sondir. Students can know, understand, master and are able to carry out CBR, DCP testing. |
Semester 5
| Nama Mata Kuliah (Course Name) | Gambaran (Overview) |
|---|---|
| Pemindahan Tanah Mekanis (Earthmoving & heavy eqipment) | Earthwork planning aims to make student understand about soil type and soil properties related to earthmoving includes heavy equipment to support earthmoving work. Hence, after completion of this course student enable to prepare volume of soil for earthmoving work, method and kind heavy equipment need to finish the work, calculation duration of the work and total cost to accomplish the work. More over production calculation and cost calculation of heavy equipment related to civil engineering work are also discussed in this subject |
| Struktur Beton Balok & Pelat (concrete Beam and Slab) | Concrete Structure I course is a very important subject as a basis for civil engineering building planning, especially buildings that use beams and plates made of reinforced concrete. This course requires 4 (four) other courses in the curriculum structure (namely: mathematics, statics, concrete material technology and stress mechanics), because basically this course is a further development and uses many calculations that are closely related to the four the prerequisite science. Concrete Structure I course material covers issues regarding the ins and outs of reinforced concrete and steel reinforcement, the advantages and disadvantages of using reinforced concrete, requirements and calculation of reinforced concrete beam structures with single reinforcement and double reinforcement, length of voltage distribution and crossing connections for reinforcement embedded in concrete , calculation of shear reinforcement (begel) beams, as well as some requirements and calculations of various types of plates and reinforced concrete stairs. |
| Dasar-dasar Perencanan Struktur Baja (Basic steel structure) | Introduction to the properties and characteristics of steel structures. Funding and calculation of the effective cross section on the pull bar. Press rod planning, including planning the coupling plate on the push rod. The principles of calculation and planning of various connections including: tensile joints, compressed joints, centric sliding joints, eccentric sliding joints, consular joints, pull and slide combination joints with bolt and welding joints. The principle of planning the steel easel, which includes: loading, calculation of the rod force, planning the profile and dimensions of the rod, the calculation of the gusset plate. Planning and calculations are carried out based on the LRFD (Load Resistance Factor Design) method and SK SNI 2002. |
| Pelabuhan Laut (port engineering) | introduction: History of the development of seaports, Terminology of seaports and seaports. Fundamentals of Seaport Planning: General functions of seaports, requirements and equipment of seaports, size and shape of seaports, breakwaters, location and width of the mouth of a seaport. Waves: Various kinds of ocean waves, Tidal waves. Waves: Wave theory, Wave diffraction, Wave refraction, Wave reflection. Waves: Sediment transport, Impact of sea ports on the surrounding area. Sailing Channels: Functions and shapes, Selection of characteristics of the shipping lanes, Depth of the grooves, Width of the grooves, Layout of the grooves, Seaport ponds. Breakwater: Function of breakwater, Breakwater type, Slanted side breakwater. Breakwaters: Upright side breakers, Mixed breakwaters, Wave force on vertical walls. Wharf: Functions, types and facilities on the pier, selection of the pier type, Wharf. Pier: Pier, Pier size, Force acting on the pier. Fenders and Fastening Tools: Functions and types of fenders, Fender planning. Fenders and Fastening Alerts: Fastening devices, forces acting on dolphins. Land Port Facilities: General description of sea port terminals, discount goods terminals, bulk goods terminals, container terminals. Sailing Guides: Definition and function of guiding equipment, Guiding equipment, Floating guidance. |
| Irigasi & Bangunan Air (irrigation systems) | irrigation is a system that is needed in the distribution of water to meet the needs of agricultural areas both rice fields, fields and plantations. In the application required supporting infrastructure in the form of water structures such as weirs, buildings for, tapping buildings, buildings, gutters and shipons, waterways, discharge measuring devices, etc. Therefore this course is very related to Hydrology and Hydraulics courses, even in deeper studies there is a link with Sediment Transport courses. So that the Irrigation and Water Building courses are very urgent for agricultural development, especially in Indonesia, where the majority of the population is agrarian (agriculture). In the Irrigation study, a more in-depth study of how to provide the water debit needed for agricultural land businesses (rice fields, fields, plantations) derived from climate data such as rainfall, wind, solar radiation and humidity adjusted to existing cropping patterns; then proceed with the analysis of the dimensions of irrigation channels (open channel). Whereas in the study of Water Buildings, it is examined more deeply about the analysis of weir building design which is as the Main Building (Head Work) which includes the analysis of the Overflow (spillway), analysis of the Intake Building and the Drain Building (flushing), the analysis of the mud bag . Then proceed with the analysis of supporting buildings such as: building and tapping analysis, drop structure analysis, box culvert analysis, flanged analysis, siphon structure analysis and Siphon structure analysis building (discharge measurement). |
| Tugas Irigasi & Bangunan Air (irrigation systems assignment) | The task of Irrigation and Water Building is a subject that supports and supports the course of Irrigation and Water Building theory (IBA), with this task the theory obtained from the Irrigation and Water Building course can be applied in the form of design and planning. The subjects related to the Irrigation and Water Building Assignments are IBA theory courses themselves, hydraulic courses and Hydrologycourses. Indirectly this course is related and very supportive of the PSDA (Water Resources Management) course in semester VI. So specifically the subject of the Irrigation Task and Water Building is very urgent for agricultural development, especially in Indonesia, where the majority of the population is agrarian (agriculture). In the study, this task includes the analysis of planning the irrigation network and supporting buildings, as well as the design of the irrigation network and supporting buildings. Examined more deeply about planning how to provide water debit needed for agricultural land businesses, then proceed with planning and design of irrigation canal networks. Then proceed with the analysis of the planning and design of the main building (head work) which includes: Weir of spillway building, intake structure and sluice structure, and mud bag analysis. Then proceed with the analysis of planning and design of buildings supporting irrigation channels such as: planning and design of buildings for and tapping, drop structures, culverts, flanged buildings, Sipon structures and siphon structures Measure thedischarge (discharge measurement). |
| Bahan Perkerasan (pavement materials) | This course contains knowledge / knowledge about road pavement material which includes: asphalt, aggregate, filler and its processing technology to form road hard layer construction in accordance with technical demands and specifications as well as oriented to planning and designing a design that is safe, comfortable and economical and environmentally friendly. |
| Praktikum Bahan Perkerasan (pavement materials lab work) | This course contains knowledge / knowledge about theory, testing process and analysis of road hard layer compiler materials, which include: asphalt, aggregate, filler, and its processing technology by conducting experiments in the laboratory, so that it will help shape theoretical and applicative science integration to be more comprehensive. |
| Manajemen Proyek (project management) | The meaning of the scope and process management objectives, understanding project management. |
| Struktur penahan tanah lateral (retaining wall structure) | In the field, every civil engineering building that is related to the lateral soil force, which is related to retaining wall. |
Semester 6
| Nama Mata Kuliah (Course Name) | Gambaran (Overview) |
|---|---|
| Teknik Pelaksanaan Konstruksi (construction technique) | This course discusses the method of carrying out work, both earthwork, pavement roads and buildings, especially the method of using equipment. Also discussed here is how to calculate the cost of implementing work using equipment, so this course is very useful for civil engineering scholars working in the implementation, starting from calculating the cost to the method of its implementation. |
| Struktur Beton Kolom dan Fondasi (concrete column & foundation) | Concrete Structure II course is a very important subject as a basis for civil engineering building planning, especially buildings with reinforced concrete. This course requires the Concrete Structure I course in the curriculum structure, because in essence the Concrete Structure I and Concrete Structure II courses are complementary units and cannot be separated in planning a building (building) from reinforced concrete material. If the Concrete Structure I course material includes the planning of building structure components which are emphasized on beams, slabs and reinforced concrete stairs, the Concrete Structure II course covers the planning of other structural components, which include: columns, foundations and beams T. In addition , considering that Indonesia is prone to earthquakes, the Concrete Structure II course also discussed how to determine / plan for earthquake loads. |
| Perancangan Struktur Baja (steel structure design) | Planning and calculation of beam stability (bending rod) against bending, side bending, torque, and deflection. Planning and calculating column stability. Planning and calculating the stability of a steel portal (rigid framework), both shaking and non-shaking portals. Planning and calculation of flexible connections on beams, compressed connections on columns, and beam-column connections, including flexible connections, rigid connections, and semi-rigid connections. The principle of gable frame planning for the use of industrial buildings, gable frame node planning, and base plate. Composite beam planning. Planning and calculations are carried out based on the LRFD (Load Resistance Factor Design) method and SK SNI 2002. |
| Tugas Perancangan Atap (roof design assignment) | Steel roof planning: making a skeleton roof plan. Loading analysis: dead load, live load, wind load, rainwater load. Sagrod planning, gording. Planning horizontal wind ties. Mechanics analysis: Cremona method, point equilibrium method. Use of computer application programs / soft ware. Planning the trunk of the easel. Node connection planning. Gusset plate planning. Coupling plate planning. Planning vertical wind ties. Making detailed images. Planning a wooden roof: making a skeleton roof plan. Loading analysis: dead load, live load, wind load, rainwater load. Sagrod planning, gording. Planning horizontal wind ties. Mechanics analysis: Cremona method, point equilibrium method. Use of computer application programs / soft ware. Planning the trunk of the easel. Node connection planning. Gusset plate planning. Planning vertical wind ties. Making detailed images. |
| Desain Perkerasan Jalan (pavement design) | Introduction to flexible pavement construction: types, functions, history and materials. Subgrade soil: division of subgrade according to location, soil classification, characteristics, compaction, type of test, repair, carrying capacity and implementation of subgrade. Lower foundation layer: types, specifications, implementation, repairs. Upper foundation layer. Surface coating: butas and their characteristics, kinds of asphalt construction. Hot mix construction: Asphalt concrete, HRA, Pre-mixed, implementation. Unsealed pavement: part of construction, function and spec, AWCAS, JAPAT, Soil, Gravel, Macadam, materials and technology as well as layer implementation. Cold mix asphalt pavement: asphalt sprinkles, sand sheet, Macadam penetration. Hot mix: AC, HRA, ATB, SMA, HSMA. Road intersections and intersections: types of meetings, traffic arrangements. Structural pavement structural planning: Component analysis method. AASHTO Method ’72. Back deflection method. AASHTO ’86 method. |
| Pengelolaan Sumber Daya Air (water resources engineering) | The role and significance of PSA, challenges and development of PSA in the future. Potential river and reservoir water resources. Potential of lake and swamp water resources. Potential subsurface water resources (with pumping), saltwater interaction analysis. Pumping hydraulics. Reservoirs, reservoir capacity planning, flood routing in reservoirs and reservoir operations. Reservoir Sedimentation. Cause of flooding. Flood control by means of pure and eco-hydraulic hydraulics. Flood Warning Model. Calculus and linear optimization models. Non-Linear Model. Simplex method. Dynamic program. |
| Drainase (drainage) | Drainage is the study of drainage (how to drain) an area. Some areas require good drainage systems ranging from irrigation areas, housing, soccer fields, and airports. The principle of drainage science is to drain water as soon as possible from an area without disturbing the balance of nature (ecosystem). The impact of partial application of drainage science is drought, scouring, and the occurrence of critical land The amount of flow is a transformation of rain that occurs in an area. Land responses to rain that occur are not always the same, influenced by land cover density, slope and the possibility of temporary storage. Determination of runoff cofesien is actually to calibrate rain into flow. For practical purposes, simple tables are provided to estimate runoff coefficients. |
| Perencanaan Transportasi (transportation planning) | This course contains knowledge / knowledge about activities carried out comprehensively, and continuously to get the process of interaction between the components forming transportation can run well, which includes: basic concepts and stages in transportation planning. |
| Ekonomi Teknik (engineering economics) | This course is the application of the basics and principles of economics to engineering. The ability of engineering and analysis of the budget plan (RAB) that has been given in several previous courses is not enough to provide provision to enter the world of work. For example, a project funding system based on debt or soft loans, needs to understand the investment method, the interest system and how to pay it back. The method of evaluating the feasibility of a project based on consideration of the costs and benefits obtained is an important subject matter. The discussion of sharia economics is expected to be a noble discourse that needs to be immediately applied in the context of learning project funding that is more blessed by God. Based on the description above, this course complements the course structure of buildings (buildings, water structures and transportation) and construction management. The subject of this course consists of the basic concepts of technical economics, the mathematics of money and its application, the method of economic comparison, the break event analysis method, technical economic analysis, benefit cost ratio and Islamic economics. |
| Rekayasa Fondasi (foundation engineering) | Foundation Engineering I is a very important subject in Civil Engineering. In the field, every civil engineering building that is related to the lateral soil force, which is related to landfill and excavation of land, will always need a retaining building. In addition, students are also provided with the concept of building a lateral earth pressure building design, lateral earth pressure reduction, and introduction of fill material. tanh, and plaster design. |
Semester 7
| Nama Mata Kuliah (Course Name) | Gambaran (Overview) |
|---|---|
| Bahasa Indonesia | Alumni of the Department of Civil Engineering, are expected to have the ability, provision, and skill in preparing research proposals and reports with the correct standard language and format, and be able to make and present interesting scientific publications of scientific papers. |
| Pemeliharaan dan Perbaikan Bangunan (building maintenance & rehabilitation) | This course contains knowledge about the types and causes of building damage due to fire, due to earthquake, machine vibration, corrosion and weathering of materials (concrete, steel, wood, etc.). Damage evaluation techniques and calculation of residual strength. Breakdown grouping, and selection of repair methods. Equipment for repairs. Types and causes of damage to water structures due to erosion and sedimentation, due to earthquakes, landslides. Damage evaluation techniques and calculation of residual strength. Breakdown level. Repair techniques and methods. Environmental conservation. |
| Desain Jembatan (Bridge engineering) | Introduction of bridge parts and their functions. The principle of determining the location and feasibility study of the construction of a bridge. Calculation of loading of road and railroad bridges, including; primary load, secondary load and special load. Planning and calculation of reinforced concrete bridges, prestressed concrete bridges, steel-concrete composite bridges, truss bridges, including planning of backrests, pavements, bridge floor plates, transverse girder, main girder. Calculation of shear connectors on steel-concrete composite bridges. |
| Tugas Manajemen Konstruksi (construction mangement assignment) | Calculate the RAB and RAP, as well as the scheduling of buildings (continuation of the tasks of roof planning and portal planning). Calculate the RAB and RAP of water structures (from irrigation and building tasks). Calculates the RAB and RAP of a transport building (from road geometric tasks). |
| Tugas Perancangan Portal (concrete frame design) | Portal is a frame structure of a building, either in the form of steel portals or reinforced concrete portals. The Portal Planning Task Course for the field of civil engineering is a very important subject for planning buildings that can be guaranteed in accordance with the applicable regulations in Indonesia. Portal planning tasks referred to in this curriculum are portal planning from reinforced concrete materials, so this Portal Planning Task course requires 5 (five) other courses, namely: Concrete Structure I, Concrete Structure II, Soil Mechanics, Foundation Engineering, and Structures Advanced Concrete, which is essentially the planning of reinforced concrete portals is the applied science of the five prerequisites. The Portal Planning Assignment course covers the planning of the loads that work on the portal (dead load, live load and earthquake load), and includes the planning of all components of the portal building structure which includes: planning beams, columns, foundations and sloof beams. |
| Kerja Praktek (apprenticeship) | The guidance process before leaving for the construction service project, followed by the implementation of practical work in certain projects and accountability reports on practical work in certain projects. The guidance process before leaving for the construction service project, followed by the implementation of practical work in certain projects and accountability reports on practical work in certain projects. The guidance process before leaving for the construction service project, followed by the implementation of practical work in certain projects and accountability reports on practical work in certain projects. |
| MK Pilihan I (elective course I) | The student could take 2 types of intended course. |
| MK Pilihan II (elective course II) |
Semester 8
| Nama Mata Kuliah (Course Name) | Gambaran (Overview) |
|---|---|
| Ketrampilan berkehidupan (live skills) | The student are able to tak a part in community service. |
| Rekayasa Lingkungan (environmental engineering) | Alumni of the Department of Civil Engineering, are expected to have the ability to understand the surrounding environment both social and natural environment because the environment has one factor that must be considered in infrastructure development. Environmental factors that must be considered in infrastructure development include the availability of clean water, wastewater, Environmental Impact Analysis (AMDAL), septic tank, natural resources, human resources, appropriate technology and environmental influences on buildings. In order to be able to follow this course well, previously students had to take a concrete technology course. |
| Pelabuhan Udara (airport engineering) | This course contains knowledge / knowledge about air transportation modes including airport planning (terminal building and take off and landing aircraft facilities), navigation systems and landing aids, geometric planning and airport structural pavement thickness. guidance to get a good conclusion from the final final assignments made. |
| Tugas perancangan & penelitian (Engineering design assignment) | Research planning, including; journal search, text book, problem formulation and research topic. Tool design, methodology selection, budget calculation and scheduling. Making proposals and research proposal seminars. Building design, including; search rules, code / regulations, and literature study. The selection of building types, the selection of design methods, design stages, and scheduling. Making proposals and building design seminar proposals. |
| Tugas Akhir (final project) | Research planning, including; journal search, text book, problem formulation and research topic. Tool design, methodology selection, budget calculation and scheduling. Making proposals, result seminars and final project examination. |