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PLANNING AND CIVIL ENGINEERING FACULTY-ITS

Departemen GEOPHYSICAL ENGINEERING Education UNDER GRADUATE PROGRAM (S1) Learning Achievement Study Program

Wor

k ab

ility

1.1

Capable to understand and implement the design in the field of geophysical data acquisition in accordance with the purpose of exploring related to the field of energy, marine, and environmental; and be able to use measuring tools that are relevant to geophysical methods used and recorded in the appropriate data sheet

1.2 Capable of recognizing the differences characteristics of land and sea exploration field that can affect the quality of the measurement data

1.3 Capable to organize the data and present it back to the appropriate by utilizing information technology appropriate to their needs.

1.4 Capable to read maps and satellite imagery as well as determine the orientation of the map in the field using GPS, compass and satellite data

1.5

Capable perform data processing and improve the quality of the data using the appropriate hardware and software geophysical methods applied in the field to produce a model of the subsurface structure with good quality and can be understood

1.6

Capable perform data processing and improve the quality of the data using the appropriate hardware and software geophysical methods applied in the field to produce a model of the subsurface structure with good quality and can be understood

1.7 Capable of providing the results of the interpretation of data in the form of a scientific report and present it orally to wear Indonesian and English in a seminar both small and large

1.8 Capable of making paper from the final project he made for registered in a national scientific journal.

Esse

nti

al

Know

l

2.1 Knowing the concepts of physics and mathematics as the basis of geophysical exploration methodology approach to a specific natural phenomenon

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2.2 Mastering the statistical methodology to determine the probability of a natural phenomenon

2.3 Mastering the statistical methodology to determine the probability of a natural phenomenon

2.4 Has the basic concepts and insights mapping application

2.5 Having knowledge of information technology and mastery of certain software which is adequate to perform the calculation model of the physics of a specific natural phenomenon

2.6 Having insight into the technology applied in the field of exploration and exploitation of natural resources

2.7 Having insight into managerial and leadership adequate to manage all resources exploration

2.8 Having insight into environmentally sustainable development in the application of the methodology based on the exploration of natural resources and natural resource management

Man

ager

ial

abili

ty

3.1 Capable lead the members team who become their responsibility

3.2 Capable manage all resources effectively.

3.3

Capable of providing a conclusion / decision sufficient through geophysical modeling approaches related problems and root problems in the field of energy (on the upstream side, upstream), marine, and environmental.

3.4 Capable of providing alternative solutions and be able to make decisions best solution to the problem of exploration and exploitation of natural resources under consideration kelimuan Geophysics.

3.5 Capable work together with partners from other areas of expertise in an integrated work team

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3.6 Capable of providing alternative solutions and be able to make decisions best solution to the problem of exploration and exploitation of natural resources under consideration kelimuan Geophysics

3.7 Capable assist and organize other members of the task in a work team to acquire strong teamwork

3.8 Has initiative and able to communicate well and work effectively with partners and the geophysical service users

attit

udes

and

val

ues

4.1 Devoted to God Almighty, has a moral, ethical and good personality to accomplish tasks

4.2 Serving as a proud citizen and love the country and to support world peace

4.3 Social sensitivity and concern to the community and environment

4.4 Appreciate the diversity of cultures, views, beliefs, and religions as well as opinions / original findings of others

4.5 Upholding the rule of law and have the passion to put the interests of the nation and the wider community.

4.6 Having the ability to hold an intelligent and analytical and have creative ideas.

Details of Learning Achievement Departement

Kem

amp

uan

kerja

1.1.1 Capable read maps

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1.1.2 Capable Make a data sheet

1.1.3 Capable use measuring devices in accordance with the geophysical geophysical methods used

1.1.4 Capable apply the methodology in accordance with the purpose of exploration geophysics.

1.1.5 Able to coordinate the implementation of the data acquisition

1.1.6 Having the ability to complete basic electronics in the field of technical problems accurately and quickly.

1.2.1 Able to explain the characteristic parameters that affect the field of exploration of the quality of the measurement data.

1.3.1 Capable to perform data management

1.3.2 Capable create reports on the observations and data processing

1.4.1 Capable create a concept and its application mapping, digital mapping and geographic information systems.

1.4.2 Capable perform digital mapping

1.4.3 Able to apply geographic information system

1.5.1 Ability to operate a computer to solve the problem of

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Geophysics

1.5.2 Have knowledge of computing Geophysics

1.5.3 Capable choose the software that is appropriate geophysical methods to solve problems

1.5.4 Capable perform the optimization of the data

1.6.1 Capable develop, implement and evaluate the results of data processing are informative

1.6.2 Capable determine the appropriate conclusions from the analysis of the problems faced

1.6.3

Capable communicate the results of data analysis in the form of a written report and oral presentation using language that is easily understood (by other disciplines).

1.7.1 Capable understand and make a scientific report with the rules of good and correct language

1.7.2 Capable convey the contents of a verbal report with Indonesian and English in large and small seminars

1.8.1 Having knowledge of the manufacture of scientific papers for publication in the journal

1.8.2 Capable make a final project paper for national scientific journals

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2.1.1

Capable understand the basic concepts of mathematics Geophysics

2.1.2 Capable understand the basic physics concepts related to Geology and Geophysics

2.1.3 Able to explain the principles of wave propagation.

2.1.4 Able to explain the basic concepts of magnetism as a basic theory of magnetic method

2.1.5 Able to explain the basic concepts of electricity as a basic theory of geoelectric method

2.1.6 Able to explain the principle of electromagnetic

2.1.7 Able to explain the principles of rock density

2.2.1 Able to explain the origins, types, relationships between rock types

2.2.2 Capable read a geological map

2.2.3 Able to explain the geological structure

2.2.4 Able to explain the geological processes

2.3.1 Able to design and conduct a survey sampling

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2.3.2 Capable perform data analysis of quantitative and qualitative

2.3.3 Capable choose the appropriate statistical methods to the problem

2.4.1 Knowing basic mapping techniques

2.4.2 Capable calculate and present data in the form of maps corresponding geophysical problems faced

2.5.1 Capable determine the geophysical data processing software is required.

2.5.2 Capable create a programming language that corresponds to the problem of Geophysics

2.6.1 Capable understand the application of technology in the field of exploration and perkembanganny SDA

2.6.2 Capable understand the application of technology and in the exploitation of natural resources perkembanganny

2.7.1 Capable to plan exploration project

2.7.2 Capable conduct exploration project management

2.8.1 Knowing and understanding the concept of sustainability living

2.8.2 Capable apply the methods of exploration and management of

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natural resources based on environmentally friendly Ab

ility

man

ager

ial

3.1.1 Capable divide the tasks and responsibilities of team members in accordance expertise

3.1.2 Able to give instructions and communicate it clearly and easily understood

3.1.3 Being able to take the right decision and rational analysis on the problems faced

3.2.1 Having a critical attitude and open

3.2.2 Able to perform resource management to achieve time efficiency and optimal results

3.3.1 Capable perform geophysical modeling analysis

3.3.2

Capable provide appropriate conclusions and geophysical modeling rational approach to the problems in the field of energy (upstream and downstream), and the marine environment

3.4.1 Capable provide alternative solutions and make the right decisions and properly in accordance with the problems

3.4.2 Capable assess the accuracy of a method used in Geophysics solve a problem

3.5.1 Capable work together with others in the outside field of expertise

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3.5.2 Capable maintain and develop working relationships

3.6.1 Capable independently and be responsible for all the activities of the group and the results

3.7.1 Capable assist and organize tasks in a work team members

3.8.1 Has initiative and able to communicate well orally and in writing and efektifsecara

attit

udes

and

valu

es

4.1.1 Honest, fair and understanding ethics in the profession

4.1.2 Having morals / good personality

4.1.3 Can work together and support each other in the work team

4.2.1 Soil and water Love Proud

4.2.2 Supporting World Peace

4.3.1 Social sensitivity and empathy to others

4.3.2 Care for the environment

4.4.1 Appreciate and respect the differences

4.5.1 Obeying the rules written and unwritten

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4.5.2 Have discipline

4.5.3 Capable put the public interest

4.6.1 Have thought that an intelligent, analytical and creative

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COURSES

No. CODE SEMESTER I CREDIT 1 SF141301 Basic Physics I 4 2 SM141301 Calculus I 4 3 IG141108 English Language 3 4 SK141203 Basic Chemistry I 3 5 RF141301 Introduction to Earth Science 3

TOTAL 17

No. CODE SEMESTER II CREDIT 1 IG14110z Religious Education 2 2 SF141302 Basic Physics II 4 3 SM141302 Calculus II 4 4 SK141204 Basic Chemistry II 3 5 IG141106 Nationality Concept 3 6 RF141302 Physical Geology 3

TOTAL 19

No. CODE SEMESTER III CREDIT

1 IG141107 Scientific Communication and Technology Concept

3

2 RF141201 Basic Electronics 3 3 RF141303 Mathematical Geophysics I 3 4 RF141304 Geodynamics 3 5 RF141305 Wave Propagation 3 6 RF141306 Rock Physics 4

TOTAL 19

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No. KODE SEMESTER IV CREDIT

1 RF141202 Geographic Information Systems 3

2 RF141203 Digital Electronics 3 3 RF141307 Mathematical Geophysics II 3 4 RF141308 Geological Structure 3 5 RF141309 Computing in Geophysics 3

6 RF141310 Gravity and Magnetics Exploration

4

TOTAL 19

No. KODE SEMESTER V CREDIT 1 RF141311 Thermodynamics 3

2 RF141312 Geophysical Digital Data Analysis

3

3 RF141313 Geoelectrical Exploration 4 4 RF141314 Seismic Exploration 4 5 RF1414yz Elective Courses 2 6 RF1414yz Elective Course 3

TOTAL 19

No. KODE SEMESTER VI CREDIT

1 IG141109 Introduction to Technopreunership

3

2 RF141315 Inversion Method 3 3 RF141316 Well Log Data Analysis 3 4 RF141317 Electromagnetics Exploration 4 5 RF141318 Geothermal Exploration 4 6 RF1414yz Elective Course 3

TOTAL 20

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No. KODE SEMESTER VII CREDIT 1 RF141319 Colloquium 2 2 RF141320 Integrated Field Study 4 3 RF141321 Capita of Selecta I 2 4 RF141322 Mineral Deposit Exploration 3 5 RF141323 Geotomography 4 6 RF1414yz Elective Course 3

TOTAL 18

No. KODE SEMESTER VIII CREDIT 1 RF141501 Final Project 6 2 RF141324 Capita of Selecta II 2 3 RF1414yz Elective Course 3 4 RF1414yz Elective Course 2 5 6

TOTAL 13 CREDITS TOTAL 144

ELECTIVE COURSES

No. SEMESTER KODE ELECTIVE COURSES CREDIT

1 V RF141401 Disaster Geology 3

2 V RF141402 Natural Gas and Oil Geology

2

3 V RF141403 Exploration Management

2

4 V RF141404 Geophysical Instrumentation

3

5 V RF141405 Geostatistics 3

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6 VI RF141406 Ground Water Exploration

3

7 VI RF141407 Sedimentation and Stratigraphy

3

8 VI RF141408 Acquisition and Processing of Seismic Data

3

9 VII RF141409 Natural Disaster Mitigation

3

10 VII RF141410 Seismic Modelling 3

11 VII RF141411 Seismic Data Interpretation

3

12 VIII RF141413 Carbonic Exploration 2 13 VIII RF141414 Marine Geophysics 2 14 VIII RF141415 Mining Geophysics 3 15 VIII RF141416 Reservoir Geophysics 3 16 VIII RF141417 Practical Work 2

SYLLABUS of CURRICULUM

COURSE RF141301 : Introduction to Earth Science Credit : 3(3/0/0) sks Semester : I

COURSE DESCRIPTION This course discusses the fundamentals of the science of Geology, Geophysics and Geomatics LEARNING OUTCOME OF STUDY PROGRAM THAT SUPPORTED 2.6.1 Able to understand the application of technology in the exploration and

development of Natural Resources

2.6.2 Able to understand the application of technology and perkembangannya in the exploitation of natural resources

COURSE LEARNING OUTCOME [C2,P2,A2] Students are able to define the scope of geophysics, geology and geomatics TOPIC

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The process of formation of the earth, tectonic introduction, Introduction to Natural Cycle, Natural Interaction and Introduction to Geophysics, position measurement, Survey mapping PREREQUISITES - TOPIC 1. Fowler, C.M.R., The Solid Earth, Cambridge Univ Press. 2. Press & Siever Earth, Chapters 1, 2, 4, 14, 16, 18, 19, 20, 21 or the geophysics chapters

of any introductory geology textbook, Cambridge, 2010 SUPPORTER REFERENCES

COURSE RF141302 : Physical Geology Credit : 3(2/0/1) sks Semester : II

COURSE DESCRIPTION This course discuss concepts for the purposes of geological exploration and reading geological maps. LEARNING OUTCOME OF STUDY PROGRAM THAT SUPPORTED 2.2.1 Capable explain the origins, types, relationships between rock types 2.2.2 Capable read a geological map 2.2.3 Capable explain the geological structure 2.4.1 Knowing basic mapping techniques COURSE LEARNING OUTCOME [C3,P3,A3] Students are able to apply the concepts for the purposes of geological exploration including geological maps can be read. TOPIC The basic concepts of geology and cycles, tectonic and tectonic Indonesia, earthquake, volcano, rock, rock deformation, geomorphology, groundwater, field courses, Geohazard, geological maps and map reading. PREREQUISITES Basic Physics I MAIN REFERENCES 1. Flint, RF. & Skinner, BJ.,“Physical Geology”, John Wiley and Sons, 1977 2. Wilson, T. et al., “Physics and Geology”, McGraw-Hill, 1975 SUPPORTER REFERENCES 1. Instructions Lecture Field Geology, Geophysics Lab ITS 2.Thomson and Turk, 2007, Physical Geology, Sounders Golden series

COURSE RF141201 : Elektronika Dasar Credit : 3(2/0/1) sks Semester : III

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COURSE DESCRIPTION This course describes the active components and passive electronic components, circuits and amplifier circuits transistor replacement LEARNING OUTCOME OF STUDY PROGRAM THAT SUPPORTED 1.1.6 Having the ability to complete basic electronics technical problems in the field

accurately and quickly COURSE LEARNING OUTCOME [C3,P3,A3] Students are able to apply the basic principles of electronics into the shape of a transistor amplifier circuit TOPIC Introduction size and electrical measuring devices, passive electronic components (resistors, capacitors and transformers), a series of substitutes, the active component of electronics and amplifier circuit transistor PREREQUISITES - MAIN REFERENCES 1. Malvino Leach, Irwan Wijaya, Principles and Application of Digital, publisher, 1994. SUPPORTER REFERENCES -

COURSE RF141303 : Mathematical Geophysics I Credit : 3(3/0/0) sks Semester : III

COURSE DESCRIPTION This course include vector analysis, system of linear equations (SPL), geometric series in completing diffrensial equations, complex numbers, and matrices LEARNING OUTCOME OF STUDY PROGRAM THAT SUPPORTED 2.1.1 Capable understand the basic concepts of Mathematics Geophysics COURSE LEARNING OUTCOME [C3,P3,A3] Students are able to solve the problems of vector, series, complex numbers, systems Linear Equations and integrals TOPIC Introduction, Vector Analysis, Series, Complex Numbers, Linear Equations system / Linear Algebra, Partial Differential, Integral Fold, Matrix. PREREQUISITES Calculus I Calculus II MAIN REFERENCES 1. Hubral, P., Mathematical Methods for Geophysics, University of Karlsruhe Press, 2001. 2. Michael S. Zhdanov, Geophysical Inverse Theory and Regularization Problems, Elsevier,

2002. SUPPORTER REFERENCES 1. Boas, ML, Mathematical Method in Physical Sciences, Jhon Wiley and Sons 3rd edition,

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2006 2. Kreyzig, Erwin, advance Engineering Mathematics, Jhon Wiley and Sons 9th edition, 2006

COURSE RF141304 : Geodynamics Credit : 3(2/0/1) sks Semester : III

COURSE DESCRIPTION This course explains the basic physics processes that are important for understanding the dynamics of plates and various other symptoms associated with Geology LEARNING OUTCOME OF STUDY PROGRAM THAT SUPPORTED 2.1.1 Capable understand the basic concepts of Mathematics Geophysics 2.1.2 Able to understand the basic concepts of physics relating to Geology and

Geophysics COURSE LEARNING OUTCOME [C3,P3,A2] Students can apply mathematical concepts related to mechanics and the concept of continuous linear elasticity in solids and liquids and basic physics processes that are important for understanding the tectonic plates and various other symptoms associated with Geology TOPIC Stress and strain solids, Elasticity and its application (periodically loading, bending under the loads of island chains, bending at an ocean trench, flexure and the structure sedimentary basins), heat transfer and its application (cooling of the oceanic lithosphere, the solidification of a dike or sill, thermal effects of erosion and sedimentation, thermal stresses, thermal history of sedimentary basins, frictional heating on faults, mantle geotherms), Fluid Mechanics and its applications (artesian aquifer flow, flow through volcanic pipes, the stream function, Stokes flow, pipe flow with heat addition, hot springs, and others) PREREQUISITES - MAIN REFERENCES 1. Turcotte, D.L and G.Schubert, Geodynamics : Applications of Continuum physics to geological problems, John Willey & Sons. Inc, 1982. 2. Timoshenko,S and J.N Goodier, Theory of Elasticity, McGraw-Hill, New York, 1970. 3. Batchelor, G.K, An Introduction to fluid Dynamics, Cambridge Univ Press, London, 1967. 4. Heinbockel, Introduction to Tensor Calculus and Continuum Mechanics, Department of Mathematics and Statistics Old Dominion University, 1996. 5. Backus, G., , Continuum Mechanics, Saemizdat Press, 1994 SUPPORTER REFERENCES 1. Jaeger, J.C and N.G.W Cook, Fundamental of Rock Mechanics, Chapman & Hall, London, 1976. 2. Kearey, P., and Vine, F. J., Global Tectonics, 2nd edition, Blackwell Science, 1996.

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COURSE RF141305 : Wave Propagation Credit : 3(3/0/0) sks Semester : III

COURSE DESCRIPTION This course describes harmonic oscillations, Wave Kinematics, Dynamics and Energetics Wave, Wave Modulation, and Electromagnetic Waves LEARNING OUTCOME OF STUDY PROGRAM THAT SUPPORTED 2.1.3 Able to explain the principles of wave propagation. COURSE LEARNING OUTCOME [C3,P2,A3] Students are able to apply the general properties for a variety of medium waves, water surface waves, sound waves, and electromagnetic waves. TOPIC Harmonic oscillations (oscillating system with one degree of freedom, system oscillations with two degrees of freedom), the kinematics wave (wave form of the general differential equations, the solution of the wave equation, the superposition of two waves and kites, and the group velocity dispersion, the Doppler effect, Snell's law), Dynamics and Energetics wave (wave in an elastic medium, sound waves in air, water surface waves, waves of energy and momentum), modulation wave (Fourier series representation of the wave, the carrier wave and wave modulation), and Electromagnetic Waves PREREQUISITES - MAIN REFERENCES 1. William Cronk Elmore, Mark A. Heald, 1985, Physics of Waves, Dover Edition, McgrawHill, New York. 2. M. O. Tjia, 1994, Gelombang, Dabara Publishers, Solo. 3. Hirose & Lonngren, 1985, Introduction to Wave Phenomena, John Wiley & Sons, SUPPORTER REFERENCES 1. Crawford, Jr.,1978, Waves, Berkeley Physics, Vol. 3, Mc Graw Hill, New York. 2. Davids J. Griffiths, 1995, Introduction to Electrodynamics, 2nd edition, Prentice Hall.

COURSE RF141306 : Rock Physics Credit : 4(3/0/1) sks Semester : III

COURSE DESCRIPTION This course explain the circumstances and physical properties of soils and rocks as well as the relationship between the physical properties of soil and rock, discuss the physical properties of a porous rock media, elastic rock properties, the effective medium theory, fluid substitution and the nature of rock anisotropy LEARNING OUTCOME OF STUDY PROGRAM THAT SUPPORTED 2.1.2 Capable understand the basic physics concepts related to Geology and Geophysics COURSE LEARNING OUTCOME [C4,P3,A3] Students are able to apply the concepts of physics and the behavior of soil and rock to the processing and geophysical data interpretation as well as integrate with other

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supporting data TOPIC Introduction, basic understanding and background (composition of soil and rock in the earth, The results of the experiment - overview, model / design in theory petrophysical - overview), porosity and permeability, density of soil and rocks, nature Magnet rocks, electrical properties of soil and rock (electrical properties of minerals, soil and rock, model / design), soil and rock elastic properties (elastic properties of minerals, soil and rock, elastic wave velocity in the soil and rocks, model or design), the relationship between the physical properties of soil and rock. PREREQUISITES Mathematical Geophysics I Mathematical Geophysics II Wave Propagation MAIN REFERENCES 1.Schoon,J.H., 1998, Physical properties of rocks: fundamental and principles of petrophysics, Pergamon. 2. Bowless J E, 1979, Physical and Geotechnical properties of soils, Mc Graw hill Co, Tokyo. 3. Mitchel, J.K, 1991, Fundamental of Soil Behavior, John Wiley Sons, Inc, NY. 4. Terzghy K, dkk, 1997, Soil Mechanics in enginering practise, Prantice Hall, NY. SUPPORTER REFERENCES Geophysics Journal

COURSE RF141203 : Digital Electronics Credit : 3(2/0/1) sks Semester : IV

COURSE DESCRIPTION This course describes the basics of digital logic gates and its application in the form of a digital system or digital circuits. LEARNING OUTCOME OF STUDY PROGRAM THAT SUPPORTED 1.1.6 Having the ability to complete basic electronics in the field of technical problems

accurately and quickly. COURSE LEARNING OUTCOME [C3,P3,A2] Students are able to apply the basic principles of digital into the form of a simple digital circuit TOPIC Digital basics (definitions, transistor as a switch as well as the phenomenon of expansion of the concept of a switch in a logic circuit), the logic gate includes a discussion of the definition, the truth table and the underlying theorems about logic circuits, Boolean algebra and simplification of Boolean algebra, the application this is the logic of the principle of a digital system or digital circuits. PREREQUISITES Basic Electronics MAIN REFERENCES 1. Malvino Leach, Irwan Wijaya, Prinsip-Prinsip dan Penerapan Digital, Penerbit Erlangga,

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1994. 2. Roger L.Tokheim, Elektronika Digital, Penerbit Erlangga 1995 SUPPORTER REFERENCES

COURSE RF141307 : Mathematical Geophysics II Credit : 3(3/0/0) sks Semester : IV

COURSE DESCRIPTION This course application specific functions in solving the case of Geophysics (signal processing), Fourier transform, Fourier series transform (DFT), Fast Fourier Transform (FFT), Laplace, Transformation-z LEARNING OUTCOME OF STUDY PROGRAM THAT SUPPORTED 2.1.1 Able to understand the basic concepts of mathematics Geophysics COURSE LEARNING OUTCOME [C3, P3, A3] Fourier able to solve problems, and other Special Functions, Ordinary Differential Equations, Partial Differential Equations TOPIC Introduction, Vector Analysis, Series, Complex Numbers, Linear Equation system / Linear Algebra, Partial Differential, Integral Fold, Matrix. PREREQUISITES calculus I calculus II MAIN REFERENCES 1.Hubral, P., Mathematical Methods for Geophysics, University of Karlsruhe Press, 2001. 2. Michael S. Zhdanov, Geophysical Inverse Theory and Regularization Problems, Elsevier, 2002. SUPPORTER REFERENCES 1. Boas, ML, Mathematical Method in Physical Sciences, Jhon Wiley and Sons 3rd edition, 2006 2. Kreyzig, Erwin, advance Engineering Mathematics, Jhon Wiley and Sons 9th edition, 2006

COURSE RF141308 : Geology of Structure Credit : 3(2/0/1) sks Semester : IV

COURSE DESCRIPTION This course learn about structural geology, conduct descriptions geometry, kinematic and dynamic analysis and can explain the process of what happened in relation to tectonic processes associated with the formation of these structures LEARNING OUTCOME OF STUDY PROGRAM THAT SUPPORTED 2.2.1 Able to explain the origins, types, relationships between rock types 2.2.2 Being able to read a geological map 2.2.3 Able to explain the geological structure

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2.4.1 Knowing basic mapping techniques COURSE LEARNING OUTCOME [C3,P3,A3] Students are able to explain the geological structure, perform a geometric description, kinematic and dynamic analysis and process what happened in relation to tectonic processes TOPIC Shape and architecture of the crust and the process of its formation, the process of deformation in rocks, understanding the strain, stress and force in the tectonic deformation, the geological structures such as fractures know, faults, folds, foliasi, parts and lineasi and its relationship to one another in tectonic processes. PREREQUISITES Physical Geology MAIN REFERENCES 1. Richard J. Lisle, 2004, Geological Structures and Maps A Practical Guide , Third edition Cardiff University Elsevier, Burlington MA 01803 2. Bell, F.G. , 2007, Engineering Geology Second Edition Elsevier Ltd. Burlington, MA 01803, USA. ISBN-10: 0-7506-8077-6 SUPPORTER REFERENCES -

COURSE RF141309 : Computing in Geophysics Credit : 3(2/0/1) sks Semester : IV

COURSE DESCRIPTION

This course learn the basic science and programming techniques commonly used in survey design, data processing and modeling of geophysical data measurements methods, and the development of computing hardware technology

LEARNING OUTCOME OF STUDY PROGRAM THAT SUPPORTED 2.5.1 Being able to determine Geophysical data processing software needed 2.5.2 Being able to create a programming language that corresponds to the problem of

Geophysics COURSE LEARNING OUTCOME [C3,P3,A3] Students are able to apply the basics of programming, concepts and software skills in survey design, data processing and modeling in exploration geophysics TOPIC Basic computing and programming , Systems of linear equations , Interpolation and curve fitting, Nonlinear Equations, Derivative and Integral numerical, The system of differential equations, Optimization, Matrix and eigen values, Partial Differential Equations, Technology and GPGPU parallel programming, Processing, analysis and optimization of Geophysical Data PREREQUISITES Calculus I Calculus II

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Basic Physics I Basic Physics II Mathematical Geophysics I Mathematical Geophysics II MAIN REFERENCES 1. Yang , W.Y., Chung, W.T., Morris, J., "Applied Numerical Methods Using MATLAB"., John Wiley & Sons,200 SUPPORTER REFERENCES 1. Kiusalaas, J., “Numerical Methods in Engineering with MATLAB.”, cambridge university press, 2005 2. Margrave, G.F.,”Numerical Methods of Exploration Seismology with algorithms in MATLAB.”, The University of Calgary, 2003 3. Milsom, J. “Field Geophysics”, John Wiley & Sons, 2003 4. Telford et al.; Applied Geophysics, Cambridge University Press, 1976

COURSE RF141310 : Gravity and Magnetics Exploration Credit : 4(3/0/1) sks Semester : IV

COURSE DESCRIPTION This course discusses how to interpret the subsurface structure of the data gravitational field and magnetic anomalies LEARNING OUTCOME OF STUDY PROGRAM THAT SUPPORTED 1.1.3 Able to use measuring devices in accordance with the geophysical geophysical

methods used 1.1.4 Being able to apply the methodology in accordance with the purpose of

exploration geophysics (energy, marine and environmental) 1.2.1 Able to explain the characteristic parameters that affect the quality of the field

measurement data. 2.1.7 Knowing the principles of rock density 2.3.1 Able to design and conduct a survey sampling COURSE LEARNING OUTCOME [C4,P3,A3] Students are able to apply the concepts and technology Gravity and Magnetic methods in describing subsurface conditions TOPIC Earth's gravitational or magnetic fields, the data acquisition and data reduction gravitational or magnetic, gravity or magnetic data processing, determination and separation anomalies, Interpretation of gravity or magnetic anomalies. PREREQUISITES Basic Physics I Basic Physics II Calculus I Calculus II MAIN REFERENCES

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1. Dobrin, "Introduction to Geophysical Prospecting", Mc.Graw-Hill, 1983. 2. Telford et. Al, " Applied Geophysics", Cambridge University Press, 1976 3. Torge Wolfgang, "Gravimetry", de Gruyter Berlin, 1989 SUPPORTER REFERENCES

COURSE RF141208 : Geographic Information System Credit : 3(2/0/1) sks Semester : IV

COURSE DESCRIPTION This course provides insight and knowledge to the students about the concept of Geographic Information Systems, developments, and its applications in earth science. LEARNING OUTCOME OF STUDY PROGRAM THAT SUPPORTED 1.1.1 Capable of reading map 1.4.1 Able to make concept of map creation and its application, digital mapping and

geographic information systems. 1.4.2 Able to perform digital mapping 1.4.3 Able to apply Geographic Information Systems 2.4.1 Knowing basic mapping techniques COURSE LEARNING OUTCOME [C3, P3, A3] Students are able to explain the concepts and applications of GIS, GIS is able to carry out development and manage spatial data by utilizing GIS technology. TOPIC Basic Concepts of Geospatial, GIS concepts, GIS Data Structures, Input Data, Operations Spatial, software and hardware of GIS, Visualization, Data Quality and Meta Data, Method Basic Analysis, Modeling GIS, Web GIS, GIS development, GIS Design, Build GIS PREREQUISITES Geodynamic MAIN REFERENCES 1. Bernhardsen, T., 1996, Geographic Information Systems, John Wiley & Sons. PUSTAKA PENDUKUNG 1. Gorr, W. L. dan K. S. Kurland, 2008, GIS Tutorial Basic Workbook, ESRI Press. 2. Rolf, A. (editor), 2001, Principles of Geographic Information Systems, ITC Educational

Textbook Series, ITC Enschede, The Netherlands. 3. Christman, N., 1997, Exploring Geographic Information Systems, John Wiley and Sons,

New York.

COURSE RF141311 : Thermodynamics Credit : 3(2/0/1) sks Semester : V

COURSE DESCRIPTION This course learn the basic laws of thermodynamics, phase diagrams, interpretation of the function of state, state variables and linkages, as well as the application of basic fluid and

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fluid parameters empirical LEARNING OUTCOME OF STUDY PROGRAM THAT SUPPORTED 2.1.2 Able to understand the basic concepts of physics that relate to geological and

geophysical COURSE LEARNING OUTCOME [C3,P3,A3] Students are able to explain the empirical relationship of thermodynamic variables, imaging techniques, and the interpretation of geoscience and can describe a variable component thermodynamics, fluid variables, the interpretation of geoscience and understand the system. TOPIC • The basic concept, Law of thermodynamics I, The second law of thermodynamics, Dependency on the thermodynamic functions of the parameter t, p, and v, Clayperon & phase diagram, Application of the theory of thermodynamics, Fluid and fluid empirical basis PREREQUISITES Basic physics I Basic physics II Mathematical Geophysics I Mathematical Geophysics II MAIN REFERENCES 1. Kern, R., and Weisbord, A. Thermodynamics for Geologist. Freeman Cooper & Co, 1967. SUPPORTER REFERENCES 1. Zemansky and Dittman. Heat and Thermodynamics. Mc. Graw-Hill, 1982. 2. Andreson, G.M., Themodynamics of Natural Systems, 1996. 3. Morello et al. Nouveau Formulaire de Physique, 1996. 4. Fundament of fluid Mechanics, Munson & Okiishi

COURSE RF141312 : Geophysical Digital Data Analysis Credit : 3(2/0/1) sks Semester : V

COURSE DESCRIPTION This course learn the basics of digital signal analysis commonly used in geophysical data analysis such as Fourier transform, discrete Fourier transform, convolution, correlation, sampling theory, the properties of the digital signal and filtering phase. LEARNING OUTCOME OF STUDY PROGRAM THAT SUPPORTED 1.5.3 Being able to choose the software that is appropriate geophysical methods to

solve problems 1.5.4 Able to perform the optimization of the data COURSE LEARNING OUTCOME [C3,P3.A3] Students are able to apply the basic concepts of digital signal data in geophysics covering the whole substance therein to support the processing of data in a simple and be able to apply simple data processing. TOPIC Introduction, Fourier Transformation, Fourier analysis of analog functions, Fourier analysis

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of analog functions, Discrete Fourier Transformation, Theory of sampling, Convolution, Correlation, Filter PREREQUISITES Mathematical Geophysics I Mathematical Geophysics II Wave propagation MAIN REFERENCES 1. Clearbout, J.F.; Fundamentals of Geophysical Data Processing With Applications to Petroleum Prospecting. Mc. Graw-Hill Book Co., New York, 1976. SUPPORTER REFERENCES 1. Sheriff, R.E., and Geldart, L.P.; Exploration Seismology Vol.2 : Data Processing and Interpretation. Cambridge University Press, 1983. 2. Oram Brigham B.: The Fast Fourier Transform and It’s Applications. Prentice-Hall Inc., 1988.

COURSE RF141313 : Geoelectrical Exploration Credit : 4(3/0/1) sks Semester : V

COURSE DESCRIPTION This COURSE explain the electrical properties of minerals and rocks, Self Potential method, resistivity and induced polarization (IP) and its application in mining exploration, hydrogeology, geotechnical and environmental. LEARNING OUTCOME OF STUDY PROGRAM THAT SUPPORTED 1.1.3 Able to use measuring devices in accordance with the geophysical geophysical

methods used 1.1.4 Being able to apply the methodology in accordance with the purpose of

exploration geophysics. 1.2.1 Able to understand the characteristic parameters that affect the field of

exploration of the quality of the measurement data. 2.1.5 Being able to explain the basic concepts of electricity as a basic theory of

geoelectric method 2.3.1 Able to design the sampling and survey 2.8.2 Being able to apply the methods of exploration and management of natural

resources based on environmentally friendly 3.4.2 Being able to assess the accuracy of a method used in Geophysics solve a problem COURSE LEARNING OUTCOME [C4,P3,A3] Students are able to apply the concepts and technology of geoelectric methods ranging from activity measurements, data processing, and interpretation in mining exploration, hydrogeology, geotechnical and environmental. TOPIC Introduction (classification methods of electricity, the electrical properties of minerals and rocks), Methods SP (self potential emergence, procedures and measurement,

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interpretation and application), resistivity method (definition, the electric field of the electrode currents in a layered earth, a variety of measurement configurations, equipment and measurement procedures, interpretation - resistivity modeling), Induction Method Polarization -IP (definition, the electric polarization in layered earth, konfigrasi measurement, measurement equipment and procedures, interpretation) PREREQUISITES - MAIN REFERENCES 1.Telford, WM; Geldart, L.P; Sheriff, RE, 1998, Applied Geophysics, Cambridge Univ Press, Cambridge. 2.Zhdanov, M. S., Keller, G. V., The Geoelectrical Methods in Geophysical Exploration, Elsevier, 1994. SUPPORTER REFERENCES 1. Geophysics and Near Surface Geophysics Journal

COURSE RF141314 : Seismic Exploration Credit : 4(3/0/1) sks Semester : V

COURSE DESCRIPTION This course explains the basic concepts of physics relating seismic wave propagation and the use of seismic reflection and refraction methods as one method of geophysical LEARNING OUTCOME OF STUDY PROGRAM THAT SUPPORTED 1.1.3 Able to use measuring devices in accordance with the geophysical geophysical

methods used 1.1.4 Being able to apply the methodology in accordance with the purpose of

exploration geophysics. 1.2.1 Able to understand the characteristic parameters that affect the field of

exploration of the quality of the measurement data. 2.1.3 Able to explain the principles of wave propagation. 2.3.1 Able to design the sampling and survey 2.8.2 Being able to apply the methods of exploration and management of natural

resources based on environmentally friendly 3.4.2 Being able to assess the accuracy of a method used in Geophysics solve a problem COURSE LEARNING OUTCOME [C4,P3,A3] Students are able to apply the concepts and technologies of seismic methods in describing subsurface conditions TOPIC The theory of seismic wave propagation, Ray theory, Seismic refraction, Acquisition and processing of seismic data refraction, Interpretation and modeling simple seismic refraction, Seismic reflection, Design of data acquisition and processing of seismic reflection, Interpretation of seismic reflection, The use of seismic methods in exploration geophysics. PREREQUISITES Introduction to Earth Science

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Wave Propagation MAIN REFERENCES 1. Sheriff, R. E., Exploration Seismology, Cambridge Univ. Press. 1995. SUPPORTER REFERENCES 1. Shearer, P.M. ,”Introduction to Seismology.”, Cambridge University Press,2009 2. Chapman, C.H., “Fundamentals of seismic wave propagation.”, Cambridge University Press, 2004. 3. Costain, J. K. and Çoruh, C.,”Basic theory of exploration seismology.”, Elsevier, 2004. 4. Milsom, J. “Field Geophysics”, John Wiley & Sons, 2003 5. Margrave, G.F.,”Numerical Methods of Exploration Seismology with algorithms in MATLAB.”, The University of Calgary, 2003 6. Telford et al.; Applied Geophysics, Cambridge University Press, 1976

COURSE RF141401 : Natural Disaster Geology Credit : 3(2/1/0) sks Semester : VII

COURSE DESCRIPTION This course discusses the geological disasters (earthquakes, tsunamis, landslides and flash floods) LEARNING OUTCOME OF STUDY PROGRAM THAT SUPPORTED 2.2.4 Being able to explain the geological processes 2.8.2 Being able to apply the methods of exploration and natural resource management

based environmentally friendly COURSE LEARNING OUTCOME [C3,P3,A3] Students are able to analyze the geological disasters (earthquakes, tsunami, volcanoes, landslides and flash floods) TOPIC Introduction to disasters in Indonesia, earthquake geology, active faults, tsunamis geology, geology liquefaction, volcanic geology, geology of landslides and flash floods geology PREREQUISITES Physical Geology MAIN REFERENCES 1.Sassa, K., Fukuoka, H., Wang, G., and Wang, F., 2005. Landslides: Risk Analysis and Sustainable Disaster Management. Springer, Berlin, 417 pp 2. Bell, F.G. , 2007, Engineering Geology Second Edition Elsevier Ltd. Burlington, MA 01803, USA. ISBN-10: 0-7506-8077-6 3. Software stabilitas lereng SUPPORTER REFERENCES

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COURSE RF141402 : Natural Gas and Oil Geology Credit : 2(2/0/0) sks Semester : V

COURSE DESCRIPTION This course discusses the location, distribution and pattern of oil and gas as well as being able to analyze the estimated reserves LEARNING OUTCOME OF STUDY PROGRAM THAT SUPPORTED 2.2.1 Being able to explain the origins, types, relationships between rock types 2.2.3 Being able to explain the geological structure COURSE LEARNING OUTCOME [C3,P3,A3] Students are able to explain the location, distribution and patterns as well as the oil and gas reserve estimates TOPIC Petroleum System consists of three sub-systems, namely; Generative sub-system, sub-system and sub-system migration trapping. Generative sub-system includes the host rock and terms of condition, the type of host rock and the resulting hydrocarbon potential, source rock maturation and methods for detection and modeling of geological conditions. Migration sub-system consists of two aspects: where hidrokrabon primary migration out of the source rock layers towards the dealer and discuss secondary migration of hydrocarbons in the layer trip channeling from the kitchen area to trap available. Sub-system includes the trapping of hydrocarbon trapping mechanisms, types of hydrocarbon traps, trap structure, stratigraphic traps and combination of both PREREQUISITES Physical Geology MAIN REFERENCES 1. Magoon B.and Dow G. AAPG memoir no. 60 1994; The Petroleum System from Source to Trap. 2. Diana Morton-Thompson, 1992. Development Geology Reference Manual, AAPG Methods in Exploration Series, N0 10 SUPPORTER REFERENCES Journal

COURSE RF141403 : Exploration Management Credit : 2(2/0/0) sks Semester : V

COURSE DESCRIPTION This course describes the concept and project management functions that include project organization, planning to assess the feasibility and investment decisions. LEARNING OUTCOME OF STUDY PROGRAM THAT SUPPORTED 1.3.1 Able to perform data management 2.7.1 Able to make exploration project planning 2.7.2 Able to perform exploration project management

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2.8.1 Knowing and understanding the concept of sustainability living 3.1.1 Being able to split the duties and responsibilities of team members in accordance

expertise 3.2.2 Able to perform resource management to achieve efficiencies of time and optimal

results 3.7.1 Being able to assist and organize tasks in a work team members 3.8.1 Has initiative and able to communicate well and effectively orally and in writing COURSE LEARNING OUTCOME [C3,P3,A3] Students are able to understand the geophysical project status, objectives and provide advice and services for the development of ongoing projects and future. TOPIC The concept and function of project management: project and project management functions, projects and systems concepts, project organization, preparing the project team, leadership and human resources, functions and planning processes; Techniques and methods of planning; Techniques and methods of control; Assessing the feasibility and investment decisions; Special Topics. PREREQUISITES - MAIN REFERENCES 1. Brown W, Exploration in Management, a Pelican Book Publisher 2. Soeharto, Iman., Project Management: From Concept to Operation, Erlangga, 1997. SUPPORTER REFERENCES 1. Journals and case study reports

COURSE RF141404 : Geophysics Instrumentation Credit : 3(2/0/1) sks Semester : V

COURSE DESCRIPTION This course discusses the basic configuration of the instrument system, the characteristics of the instruments, instrument builder component, the properties of electronic measurement instrumentation as well as the development of geophysical instruments in the future LEARNING OUTCOME OF STUDY PROGRAM THAT SUPPORTED 1.1.3 Able to use measuring devices in accordance with the geophysical geophysical

methods used COURSE LEARNING OUTCOME [C3,P3,A3] Students are able to apply the working principles and characteristics of the transducer devices, data acquisition systems, the use of electronic instrumentation associated with the method of measurement and handling geophysical instruments in reconstructing the subsurface geology TOPIC The working principle and characteristics of transducer devices, data acquisition systems,

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the use of electronic instrumentation associated with the method of measurement, handling geophysical instruments in reconstructing the subsurface geology, designing the instrument configuration PREREQUISITES Basic Electronics Digital Electronics MAIN REFERENCES 1. Rangan, Sarma, Mani. Instrumentation: Devide and System. Tata Mc. Graw-Hill, 1992. SUPPORTER REFERENCES 1. Jacon Fraden. Handbook of modern sensor: Physics, Design and Applications. AIP press, Springer-Verlag, New York, 1996.

COURSE RF141405 : Geostatistics Credit : 3(2/0/1) sks Semester : V

COURSE DESCRIPTION This course discusses the application of geostatistical methods to describe the distribution of data vertically or laterally using semivariogram analysis, the estimated reserve grade and thickness. LEARNING OUTCOME OF STUDY PROGRAM THAT SUPPORTED 1.1.2 Able to Make a data sheet 2.3.3 Being able to choose the appropriate statistical methods to the problem COURSE LEARNING OUTCOME [C4,P3,A3] Students are able to process the data with geostatistical methods of conventional and nonconventional TOPIC Basic statistical theory, conventional and nonconventional methods of geostatistics, variogram analysis and modeling, Matheron variogram shape, dispersion variance, variance estimation, Krigging, reserve estimation, using software Geoplan practicum, Krig3P and Krigres. PREREQUISITES Mathematical Geophysics I Mathematical Geophysics II MAIN REFERENCES 1. David, M., “Geostatistical Ore Reserve Estimation, Developments in Geomathematics 2”, Elsevier Scientific Publishing Co., Amsterdam, Oxford-New York, 1980 Matheron, G., “Principles of Geostatistics”, Economic Geology vol.58, 1963 2. Annels, Alwyn E., “Mineral Deposit Evaluation”, A practical approach, Chapman & Hall, London, 1991. SUPPORTER REFERENCES 1. Journel, A.G. & C. Huijbregts, “Mining Geostatistics”, Academic Press, 1978 2. Rendu, J.M., “An Introduction to Geostatistical Methods of Mineral Evaluation”, Monograph of the South African Inst. Min. Metall., 1978

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COURSE RF141315 : Inversion Method Credit : 3(2/0/1) sks Semester : VI

COURSE DESCRIPTION This course covers the basic concepts of inversion, inversion parameter determination and resolve problems with some inversion methods in geophysics. LEARNING OUTCOME OF STUDY PROGRAM THAT SUPPORTED 1.5.1 Ability to operate a computer to solve the problems of geophysics 1.5.4 Able to perform the optimization of the data COURSE LEARNING OUTCOME [C3,P3,A3] Students are able to apply the basic concepts of inversion (Inverse Theorem) and inversion parameters from measured data to solve problems in geophysical inversion. TOPIC Determination of the model parameters, a linear inverse problem formulation, the linear model, linearization parameters, uncertainties and characteristics of the inverse problem solution, curve matching, matrix inversion general, correlation matrices, Single Value Decomposition (SVD), damped least squares. PREREQUISITES - MAIN REFERENCES 1. Tarantola, Albert, Inverse problem theory and methods for model parameter estimation, 2005, the Society for Industrial and Applied Mathematics. 2. John A. Scales, Martin L. Smith and Sven Treitel, “Introductory Geophysical Inverse Theory”,1997, the Samizdat Press 3. Menke, W, "Geophysical Data Analysis, Discrete Inverse Theorem", Academic Press, 1984. SUPPORTER REFERENCES 1. Bevington, P, "Data Reduction and Error Analysis for Physicist and Scientiest", Academic Press, 1969. 2. Menke, H, "Interpretation of Discretized Geophysical Data", Elsivier, 1986.

COURSE RF141316 : Well Log Data Analysis Credit : 3(2/0/1) sks Semester : VI

COURSE DESCRIPTION This course study the physical properties of hydrocarbon reservoir rock, reservoir rock types and trap hydrocarbons, the characteristics of rock porosity, absolute permeability, effective and relative, fluid saturation, resistivity reservoir, determination of cut-off. LEARNING OUTCOME OF STUDY PROGRAM THAT SUPPORTED 2.1.2 Able to understand the basic concepts of physics that relate to geological and

geophysical 2.2.1 Able to explain the origins, types, relationships between rock types 2.2.3 Able to explain the geological structure

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COURSE LEARNING OUTCOME [C3, P3,A3] Students are able to explain the properties of reservoir rocks associated with the fluid in the reservoir. TOPIC Introduction and recognition borehole, Lithology and Hydrocarbon Trap, Resistivity rocks, Porosity Rocks, Fluid Saturation, Permeability of rock, Interpretation of well data, Calculation of volumetric hydrocarbon PREREQUISITES Physical Geology Rock Physics MAIN REFERENCES 1. Tiab, D. and Donaldson, E.C., “Petrophysics 2nd.”, Elsevier, 2004. SUPPORTER REFERENCES 1. Darling, T., “Well Logging and Formation Evaluation”, Elsevier Inc., 2005. 2. Asquith, G. B. And Krygowski, D., “Basic Well Log Analysis, 2nd”, American Association of Petroleoum Geologist, 2004. 3. Rider, M., “The Geological Interpretation of Well Logs, 2nd”, Rider-French Consulting Ltd., 2002. 4. Asquith, G.B. And Gibson, C.R., “Basic Well Log Analysis for Geologist”, American Association of Petroleoum Geologist, 1982.

COURSE RF141317 : Electromagnetics Exploration Credit : 4(3/0/1) sks Semester : VI

COURSE DESCRIPTION This course discusses the basic concepts of Electromagnetic fields, measurement, process, and interpret the subsurface structure of the electromagnetic field anomaly data. LEARNING OUTCOME OF STUDY PROGRAM THAT SUPPORTED 1.1.3 Able to use measuring devices in accordance with the geophysical geophysical

methods used 1.1.4 Being able to apply the methodology in accordance with the purpose of

exploration geophysics (energy, marine and environmental) 1.2.1 Able to explain the characteristic parameters that affect the quality of the field

data measurements 2.1.6 Being able to understand the principle of Electromagnetic 2.3.1 Able to design and conduct a survey sampling 2.8.2 Being able to apply the methods of exploration and management of natural

resources based on environmentally friendly 3.4.2 Being able to assess the accuracy of a method used in Geophysics solve a problem COURSE LEARNING OUTCOME [C4,P3,A3] Students are able to apply the concepts and technology of electromagnetic methods in describing subsurface conditions

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TOPIC The basic concept of Electromagnetic Field (MT, CSAMT, VLF, GPR), the basic principle of Electromagnetic Induction, Maxwell Law, tranfers magnetic, electrically tranfers, far field, near field PREREQUISITES Mathematical Geophysics I Mathematical Geophysics II MAIN REFERENCES 1. Telford, WM; Geldart, L.P; Sheriff, RE, Applied Geophysics, Cambridge Univ Press, Cambridge, 2010. 2. Philip Kearey, Ty Newydd & Ian Hill, Balckwell Science, Geophysical Exploration, Ty Newydd, City, 2012 SUPPORTER REFERENCES Ritz, Electromagnetic Field, Cambridge Univ. Pres, Cambridge, 1997

COURSE RF141318 : Geothermal Exploration Credit : 4(3/0/1) sks Semester : VI

COURSE DESCRIPTION This course learn basic geothermal system (geothermal) as well as the introduction of the method of geophysical, geochemical and geological used in geothermal exploration (geothermal) LEARNING OUTCOME OF STUDY PROGRAM THAT SUPPORTED 1.1.3 Able to use measuring devices in accordance with the geophysical geophysical

methods used 1.1.4 Being able to apply the methodology in accordance with the purpose of

exploration geophysics (energy, marine and environmental) 1.2.1 Able to explain the characteristic parameters that affect the quality of the field

data measurements 2.3.1 Able to design and conduct a survey sampling 2.8.2 Being able to apply the methods of exploration and management of natural

resources based on environmentally friendly 3.4.2 Able to use measuring devices in accordance with the geophysical geophysical

methods used Being able to apply the methodology in accordance with the purpose of exploration geophysics (energy, marine and environmental) Able to explain the characteristic parameters that affect the quality of the field data measurements Able to design and conduct a survey sampling Being able to apply the methods of exploration and management of natural resources based on environmentally friendly

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Being able to assess the accuracy of a method used in Geophysics solve a problem COURSE LEARNING OUTCOME [C4,P3,A3] Students are able to apply the basic concepts and techniques of geothermal exploration (geothermal) by utilizing the methods of geophysical, geological and geochemical TOPIC Introduction, Mount a fire, Physics volcano, Hydrothermal System, Geothermal Systems, Geochemical Exploration geothermal , Exploration of geothermal geology, Exploration geophysics geothermal, Integrated Analysis and calculation of geothermal reserves PREREQUISITES Physical Geology Gravity and Magnetic Exploration Electromagnetic Exploration Geoelectrical Exploration Thermodynamics MAIN REFERENCES 1. Armstead, H.C.H. Geothermal Energy. J. Willey, 1978. SUPPORTER REFERENCES 1. Ellis, A.J. & Mahon, W.A.J. Geochemistry and Geothermal System. Academic Press, 1977. 2. Keller, G.V. Exploration for Geothermal Energy. Dev. In Geophysics, Exp. Method 2, ed. A.A. Fitch, Ap. Sci.Pub, 1981.

COURSE RF141406 : Ground Water Exploration Credit : 3(2/0/1) sks Semester : VI

COURSE DESCRIPTION This course discusses the system hydrogeological, petrophysical properties and structure of the aquifer as well as the application of geophysical methods in ground water search LEARNING OUTCOME OF STUDY PROGRAM THAT SUPPORTED 1.1.3 Able to use measuring devices in accordance with the geophysical geophysical

methods used 1.1.4 Being able to apply the methodology in accordance with the purpose of

exploration geophysics (energy, marine and environmental) 1.2.1 Able to explain the characteristic parameters that affect the quality of the field

data measurements 2.3.1 Able to design and conduct a survey sampling 2.8.2 Being able to apply the methods of exploration and management of natural

resources based on environmentally friendly 3.4.2 Being able to assess the accuracy of a method used in Geophysics solve a problem COURSE LEARNING OUTCOME [C3,P3,A3] Students are able to apply the concept of system hydrogeology and geophysical

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methods for groundwater exploration TOPIC Petrophysical properties of: permeable and low permeable the rock, the structure of the aquifer - aquifer pore, geophysical surveys for pore aquifer, aquifer structures: fracture zones and caves, exploration geophysics at fault and fracture zones, geophysical exploration in the cave, the quality of ground water - sea water intrusion , exploration techniques for groundwater quality, aquifer characterization geophysics, soil protection: the vulnerability of aquifers, soil protection: mapping contamination. PREREQUISITES - MAIN REFERENCES 1. Fetter, C. W. 1980. Applied Hydrogeology. Merrill, Columbus, Ohio. 2. Reinhard Kirsch, 2009, 2nd, Groundwater Geophysics – a Tool for Hydrogeology, Springer-Verlag Berlin. SUPPORTER REFERENCES 1. Hydrogeology Journal

COURSE RF141407 : Sedimentation and Stratigraphy Credit : 3(3/0/0) sks Semester : VI

COURSE DESCRIPTION This course provides a basic understanding of sedimentation and sedimentary rock formations. Understanding the sedimentation processes that control the formation of various kinds of sedimentary rocks. Understanding the depositional environment. Interpret the history of the earth through the data of sedimentation and stratigraphy LEARNING OUTCOME OF STUDY PROGRAM THAT SUPPORTED 2.2.1 Able to explain the origins, types, relationships between rock types 2.2.2 Being able to read a geological map 2.2.3 Able to explain the geological structure COURSE LEARNING OUTCOME [C3,P3,A3] Students are able to interpret the history of the earth through the process of sedimentation and stratigraphy. TOPIC Formation rocks, depositional environment, correlation, sequence stratigraphy, various methods of stratigraphy PREREQUISITES Physical Geology Geology of Structure MAIN REFERENCES 1.Gary Nichols, Sedimentology and Stratigraphy, Blackwell Publishing Company, 2004. SUPPORTER REFERENCES 1.Boggs, S., Jr., Principles of sedimentology and stratigraphy, 4th edition, Pearson Prentice Hall, 2006.

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COURSE RF141408 : Acquisition and Processing of Seismic Data Credit : 3(2/0/1) sks Semester : VI

COURSE DESCRIPTION This course discusses the stages of acquisition and seismic data processing method LEARNING OUTCOME OF STUDY PROGRAM THAT SUPPORTED 1.1.3 Able to use measuring devices in accordance with the geophysical geophysical

methods used 1.5.1 Ability to operate a computer to solve the problems of geophysics

Have knowledge of computational geophysics 1.5.2 Have knowledge of computational geophysics 1.5.3 Being able to choose the software that is appropriate geophysical methods to

solve problems 1.5.4 Able to perform the optimization of the data 2.3.1 Able to design and conduct a survey sampling COURSE LEARNING OUTCOME [C3,P3,A3] Students are able to apply the phase of the acquisition and processing of seismic data TOPIC Review method of seismic exploration, Design of two-dimensional seismic acquisition, 3-dimensional seismic design, Acquisition of land and marine seismic, Geometry seismic acquisition, Analysis of seismic data signals, Pre-processing of seismic data, Analysis of velocity, Migration of seismic data, Technology latest data acquisition and processing PREREQUISITES Introduction to Earth Science Wave propagation Seismic exploration MAIN REFERENCES 1. Sheriff, R. E., Exploration Seismology, Cambridge Univ. Press. 1995. SUPPORTER REFERENCES 1. Hill, S.J., “Seismic Data Concept of Transformation”, Conoco Inc., 2002. 2. Yilmaz, O., “Seismic Data Analysis : Processing, Inversion, and Interpretation of Seismic Data”, Society of Exploration Geophysicist., 2008. 3. Vermeer, G.J.O., “Fundamentals of 3-D seismic survey design.”, 2001

COURSE RF141319 : Seminar Credit : 2(2/0/0) sks Semester : VII

COURSE DESCRIPTION This course is the final pre-preparation tasks ranging from the selection of

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titles, search the literature, writing papers, presenting papers and maintain a paper in front of the team of examiners. LEARNING OUTCOME OF STUDY PROGRAM THAT SUPPORTED 1.7.1 Able to understand and make a scientific report with the rules of good and correct

language 1.7.2 Being able to convey the contents of a verbal report with Indonesian and English

in large and small seminars 1.8.1 Having knowledge of the manufacture of scientific papers for publication in the

journal Being able to make a final project paper for national scientific journals

1.8.2 Being able to make a final project paper for national scientific journals COURSE LEARNING OUTCOME [C3,P3,A3] Students are able to review the topic for the final project and the topic of journal articles, national and international TOPIC The selection of titles, search the literature, writing papers, presenting papers and maintaining paper in front of the team of examiners. PREREQUISITES has taken 110 SKS MAIN REFERENCES 1. National and international journals SUPPORTER REFERENCES

COURSE RF141320 : Integrated Field Study Credit : 4 (1/0/3) sks Semester : VII

COURSE DESCRIPTION This course is the application of concepts and methods in the field of geology and geophysics. LEARNING OUTCOME OF STUDY PROGRAM THAT SUPPORTED 1.1.4 Being able to apply the methodology in accordance with the purpose of

exploration geophysics. 1.7.1 Able to understand and make a scientific report with the rules of good and correct

language 2.4.2 Being able to calculate and present data in the form of maps corresponding

geophysical problems faced 3.1.1 Able to divide the tasks and responsibilities of team members in accordance

expertise 3.1.2 Able to give instructions and communicate it clearly and easily understood

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3.1.3 Being able to take the right decision and rational analysis on the problems faced 3.2.1 Having a critical attitude and open 3.4.1 Being able to provide alternative solutions and make the right decisions and

properly in accordance with the problems 3.5.1 Able to work together with others in the outside field of expertise 3.6.1 Able to independently and be responsible for all the activities of the group and

the results 3.8.1 Has initiative and able to communicate well and effectively orally and in writing COURSE LEARNING OUTCOME [C4,P3,A3] Students are able to apply the methods of exploration and have proficiency in geological and geophysical field surveys. TOPIC Observation of the surface geology, Geological mapping, Design of survey, Concept exploration, Method of seismic refraction, Methods of gravity and magnetic, geoelectrical method, Method of Ground Penetrating Radar PREREQUISITES Physical Geology Gravity and Magnetic Exploration Electromagnetic exploration Geolectrical Exploration Seismic exploration MAIN REFERENCES 1. Telford et al., Applied Geophysics, Cambridge Univ. Press, 1976 SUPPORTER REFERENCES 1. Reynolds, J.M., An Introduction to applied and environmental Geophysics. John Wiley and Sons, 1997. 2. Sheriff, R.E., dan L.P. Geldart, Exploration Seismology. Cambridge Univ. Press, 1995. 3. Grant & West, Interpretation Theory in Applied Geophysics, Mc. Graw-Hill Book Company, 1965.

COURSE RF141321 : Capita of Selecta I Credit : 2(2/0/0) sks Semester : VII

COURSE DESCRIPTION This course introduces specific topics related to the scientific developments in the field of geophysics LEARNING OUTCOME OF STUDY PROGRAM THAT SUPPORTED 2.6.1 Able to understand the application of technology and perkembanganny in the

exploitation of natural resources 2.6.2 Able to understand the application of technology and perkembanganny in the

exploitation of natural resources

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COURSE LEARNING OUTCOME [C2,P2,A2] Students are able to understand the development of technology exploration and exploitation of natural resources such as oil and gas, geothermal, mineral and case studies TOPIC Oil and gas, geothermal, mineral and other case studies PREREQUISITES - MAIN REFERENCES 1.Telford, WM; Geldart, L.P; Sheriff, RE, 1998, Applied Geophysics, Cambridge Univ Press, Cambridge. SUPPORTER REFERENCES 1. Geophysics dan Near Surface Geophysics Journal

COURSE RF141322 : Mineral Deposit Exploration Credit : 3(2/0/1) sks Semester : VII

COURSE DESCRIPTION This course covers the determination of the location, distribution and pattern of the mineral deposits to estimate the amount of reserves LEARNING OUTCOME OF STUDY PROGRAM THAT SUPPORTED 2.2.1 Able to explain the origins, types, relationships between rock types 2.2.3 Able to explain the geological structure COURSE LEARNING OUTCOME [C3,P3,A3] Students are able to analyze the location, distribution and pattern of the mineral deposits as well as the estimated amount of reserves TOPIC Formation or genesis of minerals are generally classified in the processes of internal and surface. Internal processes such as magmatic crystallization, segregation magmatic, hydrothermal, lateral secretion and metamorphosis. Pengedapan processes associated with rock mineral sediment accumulation include mechanical, chemical pengedapan sediment, soil formation or residual, supergene enrichment, and ekshalatif volkanogenik and sedimentary. The process of formation and the presence and distribution of radioactive minerals group The process of formation and the presence and distribution of metallic minerals group The process of formation and the presence and distribution of non-metallic mineral group The process of formation and the presence and distribution of mineral rock group The process of formation and the presence and distribution of coal mineral group PREREQUISITES Physical Geology Geology of Structure MAIN REFERENCES 1. Guilbert, JM & Park, Jr. CF., (1986) The Geology of Ore Deposits, Freeman, NY.

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2. Evans, AM, (1992) Ore Geology and Industrial Minerals, An Introduction, , Blackwel Sci. Pub., London SUPPORTER REFERENCES 1. Moon, CJ., Michael KG., Whateley & Evans AM., 2006, Introduction to Mineral Exploration, 2nd Edt., Blackwell Pub., Hongkong

COURSE RF141323 : Geotomography Credit : 4(3/0/1) sks Semester : VII

COURSE DESCRIPTION This course investigates the concept of tomography in imaging the earth's subsurface by using seismic waves and electrical properties of the earth as well as its application to the global earth and in the exploration activities LEARNING OUTCOME OF STUDY PROGRAM THAT SUPPORTED 1.1.4 Being able to understand the characteristic parameters that affect the field of

exploration of the quality of the measurement data. 1.2.1 Being able to understand the characteristic parameters that affect the field of

exploration of the quality of the measurement data. COURSE LEARNING OUTCOME [C4, P3,A3] Students are able to apply the basic concepts of seismic tomographic imaging technology and electrical tomography and create simple programs. TOPIC Introduction, The basic concept of seismic tomography, The basic concept of electrical impedance tomography, Ray tracing, Parameterizing the model, Solution models, Examples of applications tomography, The introduction of crosshole seismic method PREREQUISITES Introduction to earth science wave propagation computational Geophysics Seismic Exploration MAIN REFERENCES 1. Wang, Y. “Seismic Amplitude Inversion in Reflection Tomography”, Elsevier science, 2003. SUPPORTER REFERENCES 1. Iyer H.M. and Hirahara, K. (Ed.), 1993. Seismic Tomography: Theory and Practice. Chapman & Hall, London. 2. Nolet, G. (Ed.), 1987. Seismic Tomography with applications in global seismology and exploration geophysics. D. Reidel Publishing Company, Dordrecht. 3. Chapman, C.H., “Fundamentals of seismic wave propagation.”, Cambridge University Press, 2004. 4. Costain, J. K. and Çoruh, C.,”Basic theory of exploration seismology.”, Elsevier, 2004. 5. Shearer, P.M. ,”Introduction to Seismology.”, Cambridge University Press,2009

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COURSE RF141409 : Disaster Mitigation Credit : 3(2/1/0) sks Semester : V

COURSE DESCRIPTION This course discusses the methods of geological disasters and disaster risk reduction LEARNING OUTCOME OF STUDY PROGRAM THAT SUPPORTED 2.2.4 Able to explain the geological processes COURSE LEARNING OUTCOME [C3,P3,A3] Students are able to conduct geological disaster mitigation to reduce disaster risk TOPIC Disaster management and mitigation of geological disasters, earthquake disaster mitigation, disaster mitigation tsunamis, liquefaction mitigation, disaster mitigation volcano, landslide hazard mitigation, flood mitigation PREREQUISITES Physical Geology MAIN REFERENCES 1. Sassa, K., Fukuoka, H., Wang, G., and Wang, F., 2005. Landslides: Risk Analysis and Sustainable Disaster Management. Springer, Berlin, 417 pp. 2. Sassa, K., Fukuoka, H., Wang, G., and Wang, F., 2007. Proggress in LandslidesScience. Springer, Berlin, 378 pp SUPPORTER REFERENCES 1. Willie D C and Christoper W Mah, 20014 Hoek and Bray, Rock Slope Engineering Civil and mining, Spon Press, London

COURSE RF141410 : Seismic Modelling Credit : 3(2/0/1) sks Semester : VII

COURSE DESCRIPTION This course studies the relationship between the parameters of elasticity and petrophysical parameters by utilizing the method of modeling seismic data LEARNING OUTCOME OF STUDY PROGRAM THAT SUPPORTED 1.5.3 Being able to choose the software that is appropriate geophysical methods to

solve problems 1.5.4 Able to perform the optimization of the data 2.5.1 Being able to determine the geophysical data processing software is required. 2.5.2 Being able to create a programming language that corresponds to the problem of

Geophysics COURSE LEARNING OUTCOME [C4,A3,P3] Students are able to apply the concept of seismic data modeling, AVO and AVA able to analyze seismic data, determine the relationship between the parameters of

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reservoir petrophysics with rock elasticity parameters in the get-up of seismic data processing. TOPIC Rock Physics, Amplitude Versus Offset, Amplitude Versus Angle, Amplitude Fluid inversion, Fluid Replacement Modelling PREREQUISITES Seismic Exploration Seismic Data Acquisition & Processing Reservoir Geophysics MAIN REFERENCES 1. Mavko, G., Mukerji, T., and Dvorkin, J., “The Rock Physics Handbook”, Cambridge University Press., 2009. SUPPORTER REFERENCES 1. Sheriff, R. E., Exploration Seismology, Cambridge Univ. Press. 1995. 2. Avseth, P., Mukerji, T., and Mavko, G., “Quantitative Seismic Interpretation”, Cambridge University Press., 2005.

COURSE RF141501 : Final Project Credit : 6(6/0/0) sks Semester : VIII

COURSE DESCRIPTION This course learn about the way of research, scientific writing and conducting seminars guidelines written in the form of an undergraduate thesis stage is guided by a teacher or an expert in the field. LEARNING OUTCOME OF STUDY PROGRAM THAT SUPPORTED 1.7.1 Able to understand and make a scientific report with the rules of good and correct

language 1.7.2 Being able to convey the contents of a verbal report with Indonesian and English

in large and small seminars 1.8.1 Having knowledge of the manufacture of scientific papers for publication in the

journal 1.8.2 Being able to make a final project paper for national scientific journals COURSE LEARNING OUTCOME [C4,P3,A3] Students are able to conduct geophysical research studies and scientific presentations TOPIC Studying reference geophysical studies, analyzing theories or methods, real or synthetic retrieve data, process data and modeling, analysis and interpretation of the model, make inferences, write a thesis and make a presentation in front of lecturers team of examiners. PREREQUISITES All national cargo course, ITS identifier and the identifier of study programs to semester VII MAIN REFERENCES

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1 Implementation Guidelines Final FTSP ITS 2 All of Geophysics and Geology books that have been given in the lecture. SUPPORTER REFERENCES Geophysics Journal

COURSE RF141324 : Kapita Selekta II Credit : 2(2/0/0) sks Semester : VIII

COURSE DESCRIPTION This course introduces specific topics to broaden the application of geophysical methods and technology LEARNING OUTCOME OF STUDY PROGRAM THAT SUPPORTED 2.6.1 Knowing the application of technology and development in the field of natural

resource exploration 2.6.2 Knowing the application of technology and perkembanganny in the exploitation of

natural resources COURSE LEARNING OUTCOME [C2,P2,A2] Students are able to understand the development of technology exploration and exploitation of natural resources TOPIC Oil and gas, geothermal, mineral and case studies PREREQUISITES - MAIN REFERENCES 1.Telford, WM; Geldart, L.P; Sheriff, RE, 1998, Applied Geophysics, Cambridge Univ Press, Cambridge. SUPPORTER REFERENCES Geophysics and Near Surface Geophysics Journal COURSE RF141411 : Seismic Data Interpretation Credit : 3(2/0/1) sks Semester : VII COURSE DESCRIPTION This course discusses the interpretation of 2D and 3D seismic data both quantitatively and qualitatively as well as the geological interpretation of seismic data recorded on LEARNING OUTCOME OF STUDY PROGRAM THAT SUPPORTED 1.6.1 Able to develop, implement and evaluate the results of data processing are

informative 1.6.2 Being able to determine the appropriate conclusions from the analysis of the

problems faced 1.6.3 Being able to communicate the results of data analysis in the form of a written

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report and oral presentation using language that is easily understood (by other disciplines).

2.3.2 Able to perform data analysis of quantitative and qualitative 3.3.2 Able to provide appropriate conclusions and geophysical modeling rational

approach to the problems in the field of energy (upstream and downstream), and the marine environment

COURSE LEARNING OUTCOME [C4,P3,A3] Students are able to interpret seismic data quantitatively and qualitatively with mamanfaatkan methods derived from the seismic method TOPIC Review acquisition and processing of seismic data, Interpretation of the structure, Interpretation of Stratigraphy, Inversion of seismic data PREREQUISITES Seismic exploration Inversion method Seismic Data Acquisition & Processing MAIN REFERENCES 1.Brown, A., “Interpretation of Three-Dimensional Seismic Data”, American Association of Petroleoum Geologist, 2004. SUPPORTER REFERENCES 1. Sheriff, R. E., Exploration Seismology, Cambridge Univ. Press. 1995. 2. Avseth, P., Mukerji, T., and Mavko, G., “Quantitative Seismic Interpretation”, Cambridge University Press., 2005.

COURSE RF141412 : Carbonate Exploration Credit : 2(2/0/0) sks Semester : VIII

COURSE DESCRIPTION This course discusses the parameter-physical parameters of carbonate rocks that are different from non-carbonate sedimentary rocks. SUPPORTED LEARNING ACHIEVEMENTS Prodi 1.2.1 Able to understand the characteristic parameters that affect to the quality of the

field measurement data. 2.1.2 Able to understand the basic concepts of physics that relate to geological and

geophysical 2.2.1 Being able to explain the origins, types, relationships between rock types COURSE LEARNING OUTCOME [C3,P3,A3] Students are able to explain the physical properties of carbonate rocks POKOK BAHASAN Definition of carbonate rocks, kinds and types, classification and general properties of the rock, calculate / measure the physical parameters of carbonate rocks; porosity,

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permeability, resistivity / conductivity, bulk modulus, aturasi, wetability, capillarity and other PRASYARAT Physical Geology Rock physics PUSTAKA UTAMA 1.Schon, Physical Properties of Rock 8th Edition, Elsevier, Oxford UK, 2011 PUSTAKA PENDUKUNG

COURSE RF141414 : Marine Geophysics Credit : 2(2/0/0) sks Semester : VIII

COURSE DESCRIPTION This course discusses the application of geophysical methods for mapping the potential of marine resources by analyzing the characteristics of marine geophysical data LEARNING OUTCOME OF STUDY PROGRAM THAT SUPPORTED 1.1.3 Being able to use the geophysical measuring devices in accordance with the

geophysical methods were used 1.1.4 Being able to apply the geophysical methodology in accordance with the

exploration purpose COURSE LEARNING OUTCOME [C3,P3,A3] Students are able to apply geophysical measurement tools and methodologies in accordance with the marine resources are sought TOPIC Plate tectonics, earthquakes, isostacy, gravity, mantle dynamics, ocean backs, transform faults, hydrothermal, subduction zones, sedimentation basin, magnetic anomalies on the ground floor of the ocean, marine gravity anomaly, the interpretation of marine geophysical data PREREQUISITES Physical Geology Geology of Structure Mineral Deposits Exploration Gravity and Magnetic Exploration Seismic exploration Geoelectrical Exploration Electromagnetic Exploration MAIN REFERENCES 1. The Solid Earth, 2ndEdition, by C. M. R. Fowler, ISBN 0521893070, Cambridge University Press. 2. Global Tectonics, by P. Kearey, K.A. Klepeis and F.J. Vine, 3rdEdition, ISBN 978-1-4051-0777-8, Wiley-Blackwell SUPPORTER REFERENCES Journals and Procidings

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COURSE RF141415 : Mining Geophysics Credit : 3(2/0/1) sks Semester : VIII

COURSE DESCRIPTION This course discusses the application of geophysical methods for mineral exploration mining LEARNING OUTCOME OF STUDY PROGRAM THAT SUPPORTED 1.1.3 Being able to use geophysical measuring devices in accordance with the

geophysical methods that used 1.1.4 Being able to apply the geophysical methodology in accordance with the

exploration purpose COURSE LEARNING OUTCOME [C4,P3,A3] Students are able to interpret the characteristics of terrain that influence the sampling, measuring instruments and the application of geophysical methodologies in accordance with the minerals sought TOPIC Application method of gravity, radioactive, magnetic, seismic, geoelectric, electromagnetic and logging for mineral exploration. A wide variety of designs and survey methods to search for mineral deposits in a variety of field conditions. PREREQUISITES Mineral deposits exploration Gravity and Magnetic Exploration Seismic Exploration Geoelectrical Exploration Electromagnetic Exploration MAIN REFERENCES 1.Dobrin, Milton, B., “Introduction to Geophysical Prospecting”, McGraw-Hill, 1980. 2.Chaussier, Jean-Bernard & Jean Morer, “Mineral Prospecting Manual”, North Oxford Academic Publishers Ltd., 1987. 3.Hustrulid, W. and Kutcha, M., “Open Pit Mine Planning and Design”, A.A. Balkema/Rotterdam, 1995. 4.Spereo Carras., “Sampling Evaluation and Basic Principles of Reserve Estimation”, Carras Mining & Associates, 1983 SUPPORTER REFERENCES 1.Popoff, C.C., “Computing Reserves Deposits. Principles and Conventional Methods”, 1966. 2.Keller, G. V. and F.C. Frischkneckt, “Electric Methods in Geophysical Prospecting”, McGraw-Hill 3.Parasnis, D. S., “Principles of Applied Geophysics”, Chapman & Hall, 1972. 4.Annels, “ Mineral Deposits Evaluation”, Chapman & Hall. 1991.

COURSE RF141416 : Reservoir Geophysics Credit : 3(2/0/1) sks Semester : VIII

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COURSE DESCRIPTION This course describes the methods used in the reservoir characterization using geophysical data such as seismic and well data LEARNING OUTCOME OF STUDY PROGRAM THAT SUPPORTED 1.2.1 Being able to explain the exploration field characteristic parameters that affect to

the quality of the measurement data. 2.1.3 Being able to explain the principles of wave propagation. 2.2.1 Being able to explain the origins, types, relationships between rock types 2.3.2 Being able to perform data analysis of quantitative and qualitative COURSE LEARNING OUTCOME [C4,P3,A3] Students are able to perform reservoir modeling of geophysical data TOPIC Reservoir types, Property reservoir, Stratigraphy seismic, Inversion seismic, AVO, Geostatistical, Reservoir modelling PREREQUISITES Seismic exploration Well log data analysis Inversion method Physical geology MAIN REFERENCES 1.Slatt, R.M., “Stratigraphic Reservoir Characterization for Petroleum Geologists, Geophysicists, and Engineers”, Elsevier., 2006. SUPPORTER REFERENCES 1. Avseth, P., Mukerji, T., and Mavko, G., “Quantitative Seismic Interpretation”, Cambridge University Press., 2005. 2. Tiab, D. and Donaldson, E.C., “Petrophysics 2nd.”, Elsevier, 2004. 3. Dubrule, O., “Geostatistic for Seismic Data Integration in Earth Models”, Society of Exploration Geophysicist., 2003.

COURSE RF141417 : Practical Work Credit : 2 (2/0/0) sks Semester : VIII

COURSE DESCRIPTION Application of the concepts and methods of geology and geophysics in the world of work is expected to be a picture for students and be a valuable experience in working in the field of geophysics LEARNING OUTCOME OF STUDY PROGRAM THAT SUPPORTED 1.1.4 Being able to apply the geophysical methodology in accordance with the

exploration purpose 1.7.1 Being able to understand and make a scientific report with the rules of good and

correct language 2.4.2 Being able to calculate and present data in the maps form that correspond to

geophysical problems faced 3.1.1 Being able to split the duties and responsibilities of team members in accordance

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to their expertise 3.1.2 Being able to instruct and communicate with clearly and easily understood 3.1.3 Being able to take the right and the rationale decision for the problems analysis

are faced 3.2.1 Having a critical and open attitude 3.4.1 Being able to provide alternative solutions and make the right and properly

decisions in accordance with the problems 3.5.1 Ability to work cooperatively with others outside of their expertise 3.6.1 Being able to responsible to all of the activities and results as a group and

independent 3.8.1 Having initiative and able to communicate well and effectively orally and in

writing COURSE LEARNING OUTCOME [C4,P3,A3] Students are able to apply the methods of exploration and having proficiency in the field of geology and geophysical surveys. TOPIC Surface geological observations, Geological mapping, Survey Design, Exploration Concept, Seismic refraction method, Methods of gravity and magnetic, Geoelectrical method, Ground Penetrating Radar Method PREREQUISITES Physical Geology Gravity and Magnetic Exploration Electromagnetic exploration Geoelectrical Exploration Seismic exploration MAIN REFERENCES 1. Telford et al., Applied Geophysics, Cambridge Univ. Press, 1976 SUPPORTER REFERENCES 1. Reynolds, J.M., An Introduction to applied and environmental Geophysics. John Wiley and Sons, 1997. 2. Sheriff, R.E., dan L.P. Geldart, Exploration Seismology. Cambridge Univ. Press, 1995. 3. Grant & West, Interpretation Theory in Applied Geophysics, Mc. Graw-Hill Book Company, 1965.