Descriptive Geometry

Major: Architecture and Town Planning
Code of subject: 6.191.00.O.054
Credits: 3.00
Department: Department of Technical Mechanics and Engineering Graphics
Lecturer: Stotsko Rostislav Zinovievich
Semester: 2 семестр
Mode of study: денна
Learning outcomes: The learning outcomes of this discipline detail the following programmatic learning outcomes: 1. Knowledge of the theoretical course of the discipline 2. Ability to apply the acquired knowledge to perform specific practical tasks
Required prior and related subjects: Geometry, drawing
Summary of the subject: Descriptive geometry studies the rules and ways of constructing images of spatial geometric shapes on a plane, solves geometric problems associated with three-dimensional objects in their two-dimensional image, creates the basis of architectural construction project. The purpose of the discipline "Descriptive geometry" is to teach future architecture specialists to analyze the geometric shapes of objects and objects, to think abstractly, logically and spatially, to solve geometric problems, to perform geometric constructions in architectural and construction drawings.
Assessment methods and criteria: Diagnosis of students' theoretical knowledge is carried out by assessing current graphic works and passing the exam with oral and written component and is carried out using the virtual learning environment of NU "Lviv Polytechnic" http://vns.lpnu.ua/course/view.php?id=12279. Descriptive geometry of AR Criteria for evaluating student learning outcomes No. p / n Name of graphic work Max. scores. 1 GR-0 (title page) 2 2 GR-1 (Direct Projections) 4 3 GR-2 (Plane Projections) 4 4 GR-3 (Shadows of the Architectural Fragment) 5 5 GR-4 (Shadows of Architectural Object) 5 6 GR-5 (Crossing of roof-shaped polyhedra) 5 7 GR-6 (Building Perspectives in the Way of Architects) 5 A total of 30 The maximum score in points Current Control (PC) -30 Examinations the writing component -50 oral component - 20 Together for Discipline -100
Recommended books: 1.Mikhailenko V.E. etc. Descriptive geometry. Textbook for universities. Kyiv, 1986. 2. Koroev Yu.N. Outline geometry. Textbook for universities. M. 1987     3. P.P. Voloshkevich, O.O.Boyko, B.V.Pankevich, E.V.Martin, A.L.Bespalov Sketchy geometry, engineering and computer graphics. Lviv, Publisher of Lviv Polytechnic National University, 2007     4. A.A. Chekmarev "Engineering Graphics". M. 1988.     5. OP Kalinovskaya, EV Hecker. Handbook of Essential Geometry. Kyiv, NMK VO, 1990.