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Download Study guide for the final exam - University of Toronto Mississauga
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Transcript
Study guide for the final exam. Sources: • Chapters 1–6 of Greenberg’s book. Chapter 1: skip “Viète’s axiom. Chapter 3: exclude fields. Chapter 4: You needn’t keep track of which continuity principle is used in which theorem: in theorems that rely on a continuity principle, you may assume Dedekind’s axiom. (Strengthening the assumption weakens the theorem but is harmless for our purposes.) Also, exclude fields. Chapter 5: Throughout this chapter you may assume Dedekind’s axiom. You need to know statements that are equivalent to Euc-PAR. Chapter 6: Focus on the definitions and statements rather than the proofs. • The review exercises in the book. • The handout from Coxeter’s book. • Your notes from the lectures. • The handout about complex numbers. • The handout about the Poincaré upper half plane model. • All the homework. The exam. • About half of the exam will be on the same material as the midterm. • I will give you Hilbert’s axioms of incidence, betweenness, and congruence. You need to know Hilbert’s axioms of continuity (except Aristotle’s). You need to know Euclid’s axioms. Tentative large list of terms. This is a list of terms that I find important. For each of these terms, you should be able to write two sentences, in which you define it, state it, explain it, or discuss it. - Euclid’s definition of “right angle” - Euclid’s definition of “Parallel lines” - “All right angles are equal”. - colinear points. - concurrent lines. - Euclid’s first postulate - Euclid’s second postulate - Euclid’s third postulate - Euclid’s fourth postulate - Incidence geometry. - Model for a theory. - Isomorphism of models. - Three point model. - Four point model. 1 2 - Affine plane. Great circle. Examples and counterexamples for “straight” on S 2 . Euclidean parallel property (=Euclidean parallel postulate) Hyperbolic parallel property Elliptic parallel property S 2 /antipodes. RP2 . Independence of the Euclidean parallel postulate from the incidence axioms. Transitivity of parallelism. Projective completion. Point at infinity. Homogeneous coordinates. Central projection. Vanishing line. Parallel projection. Euclid’s reliance on diagrams. The “betweenness” relation A ? B ? C Definition of “segment”. Definition of “ray”. Opposite rays Definition of “angle”. Trichotomy for “betweenness” Line separation property Plane separation axiom Pasch’s theorem The crossbar theorem Euclid’s reliance on diagrams. Convex sets Congruence of segments is an equivalence relation. Congruence of angles is an equivalence relation. “Segment addition” Congruence of triangles. “Congruence” SAS ASA SSS Base angles of an isosceles triangle. Vertical angle theorem. Ordering of segments Ordering of angles Continuity principles (circle-circle, line-circle, segment-circle) 3 - A Hilbert plane Dedekind cut of a line Dedekind cut of a ray Dedekind’s axiom of continuity Segment ordering Segment addition/subtraction Interior of an angle A ray between two other rays. Angle ordering Angle addition/subtraction Supplements of congruent angles Vertical angles An angle that is congruent to a right angle Existence of a perpendicular to a given line through a given point The model R2 Archimedes’s axiom Measurement theorem Alternate interior angle theorem Uniqueness of the perpendicular ot a given line through a given point Existence of parallel lines Why elliptic geometry is not part of Neutral geometry Exterior angle theorem SAA Existence and uniqueness of the midpoint of a segment Existence and uniqueness of an angle bisector Existence and uniqueness of a perpendicular bisector. Hypotenus-leg theorem “the greater side opposite the greater angle” Triangle inequality Saccheri-Legendre theorem Hilbert’s Euclidean axiom of parallelism Euclid’s fifth postulate Transitivity of parallelism Angle sum of a triangle Saccheri quadrilateral Lambert quadrilateral Angle inscribed in a circle (in Euclidean geometry) “rectangles exist” “there exist similar triangles of arbitrary magnitude”. Saccheri (universal) angle theorem Universal non-Euclidean property “AAA” 4 - Divergently parallel lines - Asymptotically parallel lines - Limiting parallel rays - Angle of parallelism Poincaré upper half plane model: - “h-points”, “h-lines”. - Möbius transformations are conformal - Möbius transformations form a group - Möbius transformations take lines/circles to lines/circles - Möbius transformations act simply transitively on triples - “h-transformations” - Congruence of h-angles - Congruence of h-segments - Examples of h-rays, h-angles, h-triangles - Examples of limiting parallel rays - Failure of Euc-PAR
