ECTS
ECTS Course Catalogue

Course details
Course code: IWS10264o15
Semester: 2015/2016 summer
Name: Computer Aided Design
Major: Water Engineering and Managment
Study Type: first cycle
Course type: compulsory
Study Semester: 2
ECTS points: 6
Hours (Lectures / Tutorials / Other): 15 / 45 / 0
Lecturer: dr inż. Wiesłam Fiałkiewicz
Language of instruction: Polish


Learning outcomes: Knowledge He knows the basics of programming in sufficient detail to enable independent implementation of the calculations; familiar AutoCAD software enables the creation of engineering drawings according to accepted standards, modifying existing drawings, preparation of drawings to print on an appropriate scale, creating a three-dimensional model of an object and perform realistic visualization. Knowledge He can read a typical block diagrams and prepare on the basis of simple calculations, programming methods can be used to retrieve and transform data sets, can create an engineering drawing of the object according to accepted standards, to print a drawing to a scale, to create a three-dimensional model of the object and make a realistic visualization.

Competences: Able to work independently and in a team to work on the specific task.

Prerequisites: algebra, information technology, technical drawing and descriptive geometry.

Course content: Algorithmic processing. Simple statements and controls. Data types. Functions and procedures. Using a Python development environment for computational programs, converting file formats and data sets graphical presentation of results of calculations. Cooperation program with the environments and uses. Working in AutoCAD: units, coordinates, drawing boundaries, space model sheet, vector objects, precise drawing, editing and transformations, layers, styles, blocks, text, design and print to scale. Modeling of three-dimensional (3D) solid models, surface and mesh. Create sections and 2D drawings from 3D models. Visualization and print 3D objects. Data sharing by the drawings.

Recommended literature:

Assessment methods: short tests on each class of programming and design, 2 tests of drawing, a written exam with CAD. The final score consist of score from classes (60%) and lecture (40%).

Comment: Lecture 1 Introduction to algorithmic processing: input, results, string processing instructions. Flowchart notation and programming notation. Data types. Lecture 2 Basic programming language instructions: assignment, conditional statement. The aftermath of the manual. Syntactic correctness. Types of errors in code. 3rd Lecture Instructions iteration. Application to the repetitive execution. Array data types. 4th Lecture Subprograms: functions and procedures. Subroutine arguments. Using ready-made library routines. Lecture fifth Elements of the program of cooperation with the environments and uses. Program control with graphic elements. Calling the program as a macro in a spreadsheet environment. Lesson 6 Interface AutoCAD drawing units, types of coordinate space of the model and the sheet, the initial settings, the limits of the drawing. Lecture 7th Vector objects precisely how to draw, edit and transformations of existing facilities. Lecture 8th Operations on layers, line styles and text, the use of blocks, creating libraries, move objects to other drawings. Lecture 9th Dimensioning objects, scale drawing, print settings. Lecture 10th Modeling of three-dimensional (3D) coordinate systems and defining views. Lecture 11th Solid models, surface and mesh. 12th Lecture Creating a flat and three-dimensional objects in 3D space. Lesson 13 Modify 3D models. Create sections and 2D drawings from 3D models. Lecture 14th Visualization of 3D objects by rendering the use of materials and lighting. 15th Lecture Sharing data through drawings. The type and range of exercises: laboratory exercises. Exercise 1 Using a Python development environment for the preparation of implementing ad hoc scripting programs calculation (ćwicz. 1). Exercise 2 The implementation of programs of a geometric calculation (of areas, volumes of solids, means of mass) and to convert the formats of data sets (ćwicz. 2, 3). Exercise 3 Implementation of programs to help solve the equations and find the approximate values of functions and their graphs (ćwicz. 4, 5). Exercise 4 Preparing the initial settings AutoCAD, drawing and editing simple objects (ćwicz. 6). Exercise 5 Design engineering drawing plane (ćwicz. 7, 8, 9). Exercise 6 Exercise introducing the use of the third dimension in AutoCAD-e (ćwicz. 10). Exercise 7 Implementation of a three-dimensional model of an engineering object (ćwicz.11, 12,13). Exercise 8 Visualization of the model and the execution of presentation (ćwicz. 14). Exercise 8 Working with references, raster images and extracting data (ćwicz. 15)