Czech

Not applicable.

Institute of Mathematics and Descriptive Geometry (MAT)

Students should be able to construct conics from the properties of their foci, perspective colineation, perspective affinity. Understand the basics of projections: Monge`s, orthogonal axonometry, central projection and perspective projection. Display the basic geometric bodies in each projection. Construct sections of bodies. Project a building using a perspective projection. Vertical picture, reconstruction of the elements of internal orientation. Ortography projection.

Basic knowledge of planar and 3D geometry as taught at secondary schools.

Not applicable.

Teaching methods depend on the type of course unit as specified in the article 7 of BUT Rules for Studies and Examinations - lectures, seminars.

Full-time study programme: Students have to pass two credit tests, submit two drawings and other homework.
Followed by an exam with a pass rate of at least 50%.
Combined study programme: Students will do 5 texts during the semester and send them to the lecturer. Their successful completion is a condition for getting the credit. An exam with a pass rate of at least 50% will follow.

Lectures
1. Extended Euclidean space. Perspective affinity, collineation.
2. Curve affine to a circle. Coted projection.
3. Coted projection. Simple bodies and surfaces.
4. Coted projection. Section of a body. Straight line and plane of a given slope.
5. Monge`s projection.
6. Monge`s projection. Spere.
7. Orthogonal axonometry.
8. Central projection.
9. Central projection. Perspective projection. Introduction, projection scheme.
10. Linear perspective.
11. Linear perspective.
12. Linear perspective.
13. Reconstruction of the elements of internal orientation.
Seminars
1. Focal properties of conics.
2. Perspective collineation, perspective affinity. Constructing an ellipse based on affinity.
3. Collinear image of a n-gonal and a circle.
4. Coted projection. Basic constructions. Projection of a body.
5. Coted projection. Section of a body by a plane.
6. Monge´s projection. Basic constructions. Projection of a body.
7. Monge´s projection. Sphere. Test.
8. Orthogonal axonometry.
9. Central projection.
10. Linear perspective.
11. Test. Linear perspective.
12. Linear perspective.
13. Vertical picture, reconstruction of the elements of internal orientation. Seminar evaluation.

Not applicable.

Know how to construct conics from the properties of their foci. Understand and apply the principles of perspective colineation and perspective affinity. Understand the basics of Monge`s projection and orthogonal axonometry, central projection and perspective projection. Display basic geometric bodies in each projection. Construct sections of bodies by a plane. Constructions in a plane in central projection and the projection of a simple body. Project a building using a perspective projection. Understand the geometric principles of photogrammetry. Vertical picture, reconstruction of the elements of internal orientation.

Extent and forms are specified by guarantor’s regulation updated for every academic year.

Students can register for the optional subject BA91 in the previous semester. The contents of the course is an introduction to the issues of the subject of descriptive geometry.

Not applicable.

BULANTOVÁ,J.,HON,P.,PRUDILOVÁ,K.,PUCHÝŘOVÁ,J.,ROUŠAR,J.,ROUŠAROVÁ,V.,SLABĚŇÁKOVÁ,J.,ŠAFAŘÍK,J.: Deskriptivní geometrie, multimediální CD-ROM. FAST VUT v Brně, 2012. (CS)
R.PISKA, V.MEDEK: Deskriptivní geometrie, I. díl. SNTL Praha, Alfa Bratislava, 1975. (CS)
R.PISKA, V.MEDEK: Deskriptivní geometrie, II. díl. SNTL Praha, Alfa Bratislava, 1975. (CS)

Černý J., Kočandrlová M.: Konstruktivní geometrie. ČVUT Praha, 2003. (CS)
Černý J., Kočandrlová M.: Konstruktivní geometrie 10 (sbírka příkladů). ČVUT Praha, 2002. (CS)
Hana Kopřivová: Deskriptivní geometrie II. Vydavatelství ČVUT Praha, 1999. (CS)
HOLÁŇ, Š., HOLÁŇOVÁ, L.: Cvičení z deskriptivní geometrie II. VUT Brno, 1994. (CS)
P. TALANDA: Deskr. geometrie pro obor geodezie a kartografie. VUT Brno, CERM, 1999. (CS)