Full time student: 24 credit hours. 1 ch = 2,5 ECTS
Utvekslingsfag | ECTS | NTNU fag | beskrivelse | Ok? |
---|---|---|---|---|
7,5 | Fundamentals of object-oriented programming paradigm illustrated with an object-oriented programming language. Object-oriented design; encapsulation and information hiding; coherence, inheritance, abstraction, polymorphism, coupling; graphical user interface programming; additional features of the language. | |||
CMPS252 Object-oriented programming laboratory
Side 314 | 2,5 | TDT4100 objektorientert programmering | Practical experience with object-oriented programming, covering object-oriented features illustrated by various types of problem-solving techniques. Motivations to the programming environment; coding quality and professionalism; using object-oriented features of a programming language to code solutions to various problems; exploring additional language features; debugging, testing and evaluation of programs. | |
CMPS351 Fundamental of database Systems
Side 315 | 7,5 | TDT4145 Datamodellering og databasesystemer | Fundamentals of database design, modeling, architectures, and query notations and languages with a focus on relational databases. Motivations to the concepts of database systems including components, types and architectures, data modeling (diagrams, models, and schemas); relational data model, mapping conceptual schema to a relational schema; relational algebra, relational calculus, SQL; normalization | |
CMPS352 Fundamental of database Systems laboratory Side 315 | 2,5 | TDT4145 Datamodellering og databasesystemer | Practical experience on database system development for different types of requirements. Familiarity of a DBMS architecture and features; practical modeling, design, analysis, and implementation of database systems with various requirements; querying and reporting; embedding SQL in programming applications | |
PHYS191 General Physics for Engineering side 439 | 7,5 | TFY4125 Fysikk | •Physics and Measurements: Units and Physical Quantities- Vectors- Motion in One Dimension- Motion in Tow Dimension- Horizontal Motion- Vertical Motion- Projectile Motion- Kinematic Equations. •The Laws of Motion: Newton’s First Law- Newton’s Second Law- Some Applications of Newton’s Laws- Circular Motion and its Application. •Work and Energy: Kinetic Energy- Work Done by Constant Force- Work Energy Theorem- Potential Energy- Conservation of Energy- Quantization of Energy. •Linear Momentum and Collision: Linear Momentum- Impulse of Momentum- Collisions- Elastic and Inelastic Collision- The Center of Mass- Motion of a System of Particles. •Rotational Motion: Angular Position, Velocity and Acceleration- Rotational Kinematic Motion Equations- Angular and Linear Quantities- Rotational Kinetic Energy- Calculations of Moments of Inertia- Torque- Work, Power and Energy in Rotational Motion- Rolling Motion of a Rig | |
MATH102 Calculus 2 side 401 | 7,5 | TMA4105 Matematikk 2 | MATH 102 is the second course in a three-course calculus series (CALCULUS I-III) which is required for Science and Engineering students. It starts from the study of transcendental functions. Then a very important part covers the techniques of integration. Parametric equations and polar coordinates are studied and applied to finding area in polar coordinates. Finally the sequences and series are taken into account. A number of tests for convergence are learned in this course. Taylor and Maclaurin’s series are applicable series. |