P Preliminary Concepts 1 Line And Angle Relationships 2 Parallel Lines 3 Triangles 4 Quadrilaterals 5 Similar Triangles 6 Circles 7 Locus And Concurrence 8 Areas Of Polygons And Circles 9 Surfaces And Solids 10 Analytic Geometry 11 Introduction To Trigonometry A Appendix Chapter5: Similar Triangles
5.1 Ratios, Rates And Proportions 5.2 Similar Polygons 5.3 Proving Triangles Similar 5.4 The Pythagorean Theorem 5.5 Special Right Triangles 5.6 Segments Divided Proportionally 5.CR Review Exercises 5.CT Test Section5.3: Proving Triangles Similar
Problem 1E: What is the acronym that is used to represent each statement? a Corresponding angles of similar... Problem 2E: Classify as true or false. a Any two rectangles are similar. b If an angle of one rhombus is... Problem 3E: Classify as true or false: a If the vertex angles of two isosceles triangles are congruent, the... Problem 4E: Classify as true or false: a If the midpoints of two sides of a triangle are joined, the triangle... Problem 5E: In Exercises 5 to 8, name the method AA,SSS~,orSAS~ that is used to show that the triangles are... Problem 6E: In Exercises 5 to 8, name the method AA,SSS~,orSAS~ that is used to show that the triangles are... Problem 7E: In Exercises 5 to 8, name the method AA,SSS~,orSAS~ that is used to show that the triangles are... Problem 8E: In Exercises 5 to 8, name the method AA,SSS~,orSAS~ that is used to show that the triangles are... Problem 9E: In Exercises 9 to 12, name the method that explains why DGH~DEF. DGDE=DHDF Problem 10E: In Exercises 9 to 12, name the method that explains why DGH~DEF. DE=3DG and DF=3DH Problem 11E: In Exercises 9 to 12, name the method that explains why DGH~DEF. DGDE=DHDF=GHEF=13 Problem 12E: In Exercises 9 to 12, name the method that explains why DGH~DEF. DGHDEF Problem 13E: In Exercises 13 to 16, provide the missing reasons. Given: RSTV;VWRS;VXTS Prove: VWRVXT PROOF... Problem 14E: In Exercises 13 to 16, provide the missing reasons. Given: DETandABCD Prove: ABECTB PROOF Statements... Problem 15E: In Exercises 13 to 16, provide the missing reasons. Given: ABC;MandN are midpoints of AB and AC,... Problem 16E: In Exercises 13 to 16, provide the missing reasons. Given: XYZ with XY trisected at P and Q and YZ... Problem 17E: In Exercises 17 to 24, complete each proof. Given: MNNP,QRRP Prove: MNPQRP Exercises 17, 18 PROOF... Problem 18E: In Exercises 17 to 24, complete each proof. Given: MNQR See figure for Exercise 17. Prove: MNPQRP... Problem 19E Problem 20E: In Exercises 17 to 24, complete each proof. Given: HJJF,HGFG See figure for Exercise 19. Prove:... Problem 21E: In Exercises 17 to 24, complete each proof. Given: QRMN=RSNP=QSMP Prove: NR PROOF Statements Reasons... Problem 22E: In Exercises 17 to 24, complete each proof. Given: DGDE=DHDF Prove: DGHE PROOF Statements Reasons 1.... Problem 23E: In Exercises 17 to 24, complete each proof. Given: RSUV Prove: RTVT=RSVU PROOF Statements Reasons 1.... Problem 24E Problem 25E: In Exercises 25 to 28, ABCDBE Exercises 25-28 Given AC = 8, DE = 6, CB = 6. Find: EB HINT: Let EB =... Problem 26E: In Exercises 25 to 28, ABCDBE Exercises 25-28 Given: AC = 10, CB = 12. E is the midpoint of CB Find:... Problem 27E: In Exercises 25 to 28, ABCDBE Exercises 25-28 Given: AC = 10, DE = 12, AD = 4. Find: DB Problem 28E: In Exercises 25 to 28, ABCDBE Exercises 25-28 Given: CB = 12, CE = 4, AD = 5. Find: DB Problem 29E: CDECBA with CDEB. If CD=10,DA=8 and CE=6, find EB. Exercises 29, 30 Problem 30E: CDECBA with CDEB. If CD=10,CA=16 and EB=12, find CE. Exercises 29, 30 Problem 31E: ABFCBD with obtuse angles at vertices D and F as indicated. If mB=45, mC=x and mAFB=4x, find x.... Problem 32E: ABFCBD with obtuse angles at vertices D and F as indicated. If mB=44, and mA:mCDB=1:3, find mA.... Problem 33E: In Exercise 33, provide a two-column proof. Given:ABDF,BDFG Prove:ABCEFG Problem 34E: In Exercise 34, provide a paragraph proof. Given: RSAB,CBAC Prove: BSRBCA Problem 35E: Use a two-column proof to prove the following theorem: The lengths of the corresponding altitudes of... Problem 36E Problem 37E: Use the result of Exercise 13 to do the following problem. In MNPQ, QP=12 and QM=9. The length of... Problem 38E: Use the result of Exercise 13 to do the following problem. In ABCD, AB=7 and BC=12. The length of... Problem 39E: The distance across a pond is to be measured indirectly by using similar triangles .If XY=160ft,... Problem 40E: In the figure, ABCADB. Find AB if AD=2 and DC=6. Problem 41E: Prove that the altitude drawn to the hypotenuse of a right triangle separates the right triangle... Problem 42E: Prove that the line segment joining the midpoints of two sides of a triangle determines a triangle... Problem 43E Problem 3E: Classify as true or false: a If the vertex angles of two isosceles triangles are congruent, the...
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True or False Two triangles are congruent if two angles and the included side of one equals two angles and the included side of the other.
Polygon with three sides, three angles, and three vertices. Based on the properties of each side, the types of triangles are scalene (triangle with three three different lengths and three different angles), isosceles (angle with two equal sides and two equal angles), and equilateral (three equal sides and three angles of 60°). The types of angles are acute (less than 90°); obtuse (greater than 90°); and right (90°).
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