Summer Semester 2010/11
Summer Semester 2011/12
Summer Semester 2012/13
Geometry and Engineering Graphics II GS2013
Course content:
Parallel and central projection and invariants. Pohlke’ theorem and axonometry. Orthographic projection onto two (or more) projection surface (Monge orthographic projection). Multiview orthographic projection of solid figures and its shadows. Intersection of two and more solid figures in frame representation, tower roofs. Geometry of roofs, revolution and revolved section. Applicable perspective. Topographic projection – representation of basic geometric objects. Contour maps and plan-profiles. Earth work design - design of roads and sports ground, fill and cut. CAD programs and classic descriptive geometry.
Learning outcomes:
Knowledge of new geometric transformations and kinds of projections have in civil engineering employment and its properties in context of newest utilization of software. Education of spatial imagination and take possession of abilities of graphic creation engineering documentation part.
Course coordinators
Bibliography
a) basic references:
Bieniasz J., Januszewski B., Piekarski M.: Rysunek techniczny w budownictwie. Oficyna Wyd. PRz, 2006.
Koźniewski E.: Wykłady i zadania z geometrii odwzorowań inżynierskich. Preskrypt. Białystok 2007 (translation into English).
Pottmann H. et al.: Architectural Geometry. Bentley Institute Press, Exton, Pennsylvania, USA 2007.
Foley J.D. et al.: Introduction to Computer Graphics. Addison-Wesley Publishing Company, Inc. 1994.
b) supplementary references:
Slaby S.M.: Descriptive Geometry. BARNES & NOBILE, Inc. New York 1956.
Warner F.M., McNeary M.: Applied Descriptive Geometry. McGRAW-HILL Book Company, Inc. New York, Toronto, London 1959.
Lamit L. G.: Descriptive Geometry. Prentice-Hall, Inc., Englewood Cliffs, NJ 07632, 1983.