Indonesia mech@eng.ui.ac.id +62 21 7270032
Indonesia mech@eng.ui.ac.id +62 21 7270032

Kurikulum S1 Teknik Perkapalan

Kurikulum S1 Teknik Perkapalan

Vision:
To become the center of excellent research and education services in Naval Architecture and Marine Engineering.

Mission:
To conduct research and research-based education for the development of science and technology in the field of Naval Architecture and Marine Engineering, and to conduct research and education and use it to improve quality life and humanity.

Graduates of Naval Architecture and Marine Engineering study have devoted themselves to various fields such as:

• Engineer at the shipyard
• Superintendent in shipping companies
• Shipping consultant
• Designers in the ship design office
• Appraisers at insurance companies
• Engineers in oil and gas companies
• Analyst at the Ministry of Maritime Affairs and Fisheries
• Analyst at the Ministry of Transportation
• Analysts at the Customs

Semester 1

1

ENGLISH

Course Content / Syllabus:

  1. Study Skills: (Becoming an active learner,
  2. Vocabulary Building: word formation and using the dictionary Listening strategies Extensive reading
  3. Grammar: (Revision of Basic grammar Types of sentences Adjective clauses, Adverb clauses Noun clauses, Reduced clauses)
  4. Reading: (Reading skills: skimming, scanning, main idea, supporting ideas,Note-taking Reading popular science article, Reading an academic text)
  5. Listening: (Listening to short conversations, Listening to a lecture and notetaking, Listening to a news broadcast, Listening to a short story)
  6. Speaking: (Participating in discussions and meetings, Giving a presentation) Writing: (Writing a summary of a short article Describing graphs and tables, Writing an academic paragraph, Writing a basic academic essay (5 paragraphs).
2

LINEAR ALGEBRA

Course Description:

Linear Algebra is a branch of mathematics that deals with vector spaces, linear transformations, and systems of linear equations, playing a crucial role in various scientific and engineering disciplines. The fundamental concepts and applications of Linear Algebra in engineering is introduced in this course.

3

RELIGION

Course Description:

Meaning and religion that apply in scientific and theological discourse; History and origins of religion; The main dimensions of religion such as divinity, prophethood, scripture, ritual, salvation, social ethics and eschatology; Socio-religious dimension; Religion and state; Inter-religious relations.

4

CALCULUS 1

Course Description:

The topics covered in this course include real number systems, inequalities, function graphs, function operations, trigonometric functions, function limits, continuity, derivatives, chain rule, derivative applications, definite integrals, integral applications, transcendental functions, integration techniques, indefinite forms, and improper integrals.

5

ENGINEERING DRAWING

Course Description:

In this course, technical drawings created during the lectures must be made on standard-sized drawing paper. The correct form and dimensions of objects can be visualized not only from understanding the illustrations but also from various types of lines used, dimensions, notes, scale, and others. To provide accurate information to all stakeholders, drawings must adhere to the standard rules recognized by the International Organization for Standardization (ISO).

6

INTRODUCTION TO NAVAL ARCHITECTURE AND MARINE ENGINEERING

Course Description:

This course introduces the fundamentals of ship architecture and marine engineering, including the principles of ship design, stability, hydrostatics, and hydrodynamics. Students will learn the concept of ship design, from structure, material, to safety and regulatory aspects.

7

BASIC PHYSICS 1 (MECHANIC & HEAT)

Course Description:

This course discusses the basic concepts of physics in the fields of mechanics and thermodynamics, including motion, force, energy, momentum, and the basic laws of Newtonian mechanics. In addition, students will also learn the concepts of heat, thermometry, heat, and the principles of thermodynamics underlying the energy transfer process.

8

LABORATORY EXPERIMENT FOR BASIC PHYSICS 1

Course Description:

This course provides practical experience in basic physics experiments to understand fundamental concepts such as mechanics, kinematics, dynamics, and energy.

Semester 2

1

MPKT

Course Description:

MPKT is carried out in the form of a series of learning activities outside the formal class. activities carried out include participation in lectures/seminars, internships, field work practices, social work, sports and/or arts activities and other forms of activities that have the main goal of equipping students with soft skills and proven by portfolio documents.

2

BASIC CHEMISTRY

Course Description:

Students are able to analyze basic chemical principles for application in engineering, Students are able to explain the classification and state of matter, unit and measurement uncertainty, and dimensional analysis of measurement units.

3

BASIC PHYSICS 2 (ELECTRICAL, MAGNET, WAVE, And OPTIC)

Course Description:

This course introduces the basic concepts of physics in the fields of electricity, magnetism, waves, and optics. Students will learn the principles of electricity and magnetism, such as Coulomb’s law, electric and magnetic fields, and electromagnetic induction. In addition, the course covers wave theory, properties of waves, and the basics of optics, including light, refraction, and shadow formation. Through this understanding, students will be able to analyze related phenomena and apply them in various physical contexts.

4

LABORATORY EXPERIMENT FOR BASIC PHYSICS 2 (ELECTRICAL, MAGNET, WAVE, And OPTIC)

Course Description:

This course provides practical experience in physics experiments related to electricity, magnetism, waves, and optics. Students will conduct various experiments to understand the concepts of electric and magnetic fields, electromagnetic induction, wave properties, and optical phenomena such as refraction and interference of light. This laboratory activity aims to train the skills of observation, measurement, data analysis, and compiling scientific reports based on experimental results.

5

SHIP MATERIAL

Course Description:

Students are expected to understand available material options depending on the operation re- quirement of the ships, encompassing both qualitative and quantitative understanding. Qualitative understanding includes properties of materials which are used for ship structure.

6

ENGINEERING STATICS

Course Description:

To understand the concept of force and force equilibrium in some construction so the student can calculate and analyze the equilibrium of construction by using static equilibrium law.

7

SHIP MODELLING AND VISUALIZATION

Course Description:

This course introduces ship modeling and visualization techniques using specialized software. Students will learn the basics of ship shape design, structural analysis, and visualization of ship elements in three-dimensional form. With a focus on creating accurate and realistic models, this course equips students with digital design skills essential for ship performance simulation and marine engineering project development.

Semester 3

1

KINEMATICS AND DYNAMICS

Course Description:

Students have the ability to understand the key concept of kinematics and dynamics of mechanical system and capable to analyze the movement, velocity, acceleration force and equilibrium.

2

ENGINEERING MATHEMATICS

Course Description:

This course aims to complete student’s anylitical ability. Students understand and are able to use the advanced mathematical concepts in order to solve engineering problems.

3

SHIP BUILDING THEORY

Course Description:

Provides an understanding about hydrostatic and dynamic stability calculation

4

SHIP STRUCUTRE 1

Course Description:

Provides an understanding for calculating transversal and longitudinal constructions, profile and plate selection

5

BASIC THERMODYCNAMICS

Course Description:

This course introduces the basic concept of thermodynamics and its application in real life and gives the understanding about the design of thermodynamics system.

6

BASIC FLUID MECHANICS

Course Description:

Fluid mechanics is a branch of applied mechanics used to investigate, analyze and study the nature and behavior of fluids. The fluid being studied can be a fluid that is moving or stationary

7

COMPUTATIONAL MATHEMATICS

Course Description:

Understand the basic knowledge of computational and engineering programming, able to make computational and programming techniques simple, able to solve engineering problems with engineering programming.

Semester 4

1

HEAT TRANSFER

Course Description:

The aim of this course is for students to be able to understand the various mechanisms of heat and mass energy transfer between two systems, when there is a temperature difference and be able to calculate the rate of heat
transfer. Able to solve various problems of heat transfer and mass using dimensionless parameters.

2

SHIP MACHINERY

Course Description:

Understanding of types and concept of the main system, supporting system, lubrication system, and refrigeration system of a ship machinery.

3

NUMERICAL METHOD

Course Description:

The objective of this course is so that students can understand and apply the process and method (algorithm) for engineering numerical computation based on computer and parameters that affect speed and
accuracy of the results.

4

SHIP STRUCTURE 2

Course Description:

Provides knowledge and understanding of the types of construction on the ship structure and competence to design ship structures.

5

SHIP RESISTANCE AND PROPULSION

Course Description:

Provides an understanding for the calculation of ships resistance and propulsion, both theoreti- cally and by using a model

6

SHIP HYDRODYNAMICS

Course Description:

Students are expected to understand basic knowledge on ship hydrodynamics, waves, and viscous flow

7

STATISTICS AND PROBABILITY

Course Description:

Students can handle quantitative data / information starting from the descriptive stage (collection, orga
nization and presentation) to the inductive stage which includes forecasting and drawing conclusions based on the relationship between variables for decision making

8

SHIP DESIGN ASSIGNMENT 1

Course Description:

Understanding of ship design procedures and monitoring.

Semester 5

1

SHIP VIBRATION

Course Description:

Understanding of engine vibration system and vibration source detection

2

SHIP DESIGN ASSIGNMENT 2

Course Description:

Understanding the calculation and monitoring of supporting system for ships designing

3

FLUID AND PIPING SYSTEM OF SHIP

Course Description:

Understanding types of fluid system, piping system, and practical aspects on the Ship Construction.

4

SHIP MANUFACTURINGG PROCESS

Course Description:

This course aims to study the ship manufacturing process in general, the process of forming and shaping, the manufacturing of ship’s plate, and the machining process

5

WELDING ENGINEERING

Course Description:

This course aims to study basic knowledges in welding, joining, cutting. Students are expected to achieve the basic competences of welding engineering.

6

SHIP POWER GENERATION

Course Description:

Students can understand the principles of power system of the ship, including the current and the future trends.

7

SHIP MACHINERY AND EQUIPMENT

Course Description:

Understanding of theory, system, and working principle of ship equipment.

8

ELECTIVE, INTERSHIP A

Course Description:

This course provides an opportunity for students to gain hands-on work experience in industries relevant to their field of study. Through this internship program, students can apply theoretical knowledge in real situations, develop professional skills, and expand networks in the world of work.

Semester 6

1

SHIP DESIGN ASSIGNMENT 3

Course Description:

Understanding of calculation and monitoring of ship engine design.

2

SURVEY AND INSPECTION OF SHIP

Course Description:

Understanding of types of class survey, statutory approval and ship operation.

3

SHIP ELECTRICAL SYSTEM

Course Description:

Understanding of the principles, operations, and applications of electronic systems of ships.

4

ENGINE ROOM LAYOUT DESIGN

Course Description:

This course discusses the basic principles in the design of ship engine room layouts. Students will learn design aspects that consider space efficiency, accessibility, safety, and maintenance of major components such as main engines, generators, and piping systems. In addition, this course emphasizes the importance of ergonomic planning and compliance with industry standards to ensure optimal ship operations.

5

SHIP MAINTENANCE AND REPAIR

Course Description:

Students are able to understand the maintenance and control of ship’s engine system.

6

ELECTIVE, INTERSHIP B

Course Description:

This course provides an opportunity for students to gain hands-on work experience in industries relevant to their field of study. Through this internship program, students can apply theoretical knowledge in real situations, develop professional skills, and expand networks in the world of work.

Semester 7

1

SHIP FINANCING AND INSURANCE

Course Description:

Students are able to understand the concepts of ship investment financing and maritime insurance as one
of the ways of controlling risk and the concept of financing and maritime investment feasibility.

2

HEALTH, SAFETY AND ENVIRONMENT

Course Description:

Understanding the importance of Occupational Health and Safety and Environmental Protection (K3LL), understanding K3LL regulations and legislation, understanding K3LL management systems, understanding the risks and prevention of work accidents.

3

ON THE JOB TRAINING

Course Description:

The course is intended to provide opportunity for gaining experience in industries and applying mechanical engineering knowledge. Able to perform management tacredits and engineering technique according to field of interest

4

SEMINAR

Course Description:

Student can communicate in verbal or written with final project pjroposal; able to formulate the problems and objectives of the research, conduct theoretical review to formulate the hypothesis, design the research method for empirical proof and present the preliminary result to the supervisor

5

ELECTIVE

Course Description:

Elective courses provide students with the opportunity to choose specialized topics that suit their academic or career interests and needs. The topics offered are diverse, covering areas relevant to the program of study as well as additional skills that support professional development.

Semester 8

1

FINAL PROJECT

Course Description:

Students are able to conduct design and analysis the object of system that related to the mechanical engineering field.

2

ELECTIVE

Course Description:

Elective courses provide students with the opportunity to choose specialized topics that suit their academic or career interests and needs. The topics offered are diverse, covering areas relevant to the program of study as well as additional skills that support professional development.

Things To Know First

The Common Application is required for students applying to any or all of KU’s three degree. You’ll be able to choose your campus and program s that you are interested.

You will need :

  • Contact information for the counselor or other school representative who will complete your Common Application School Report and submit your official high school transcript.
  • Contact information for one teacher (or two, maximum) who will complete the Teacher Evaluation form.
  • Nonrefundable $50 application fee. Students who are unable to pay the application fee can request a fee waiver.

When To Apply?

Application Deadline Decision
Early Decision 1 November 1 December 15
Early Decision 2 January 1 February 15
Regular Decision January 1 April 1

Where to submit necessary documents?

Documents not submitted through the online method can be mailed to:

Box 35300
1810 Campus Way NE
Bothell, WA 98011-8246 USA