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Splash Screen. Five-Minute Check (over Lesson 4–3) NGSSS Then/Now New Vocabulary Postulate 4.1: Side-Side-Side (SSS) Congruence Example 1: Use SSS to Prove Triangles Congruent Example 2: Standard Test Example Postulate 4.2: Side-Angle-Side (SAS) Congruence

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  1. Splash Screen

  2. Five-Minute Check (over Lesson 4–3) NGSSS Then/Now New Vocabulary Postulate 4.1: Side-Side-Side (SSS) Congruence Example 1: Use SSS to Prove Triangles Congruent Example 2: Standard Test Example Postulate 4.2: Side-Angle-Side (SAS) Congruence Example 3: Real-World Example: Use SAS to Prove Triangles are Congruent Example 4: Use SAS or SSS in Proofs Lesson Menu

  3. A B C D Write a congruence statement for the triangles. A.ΔLMN ΔRTS B.ΔLMN ΔSTR C.ΔLMN  ΔRST D.ΔLMN  ΔTRS 5-Minute Check 1

  4. A B C D Name the corresponding congruent angles for the congruent triangles. A.L  R, N  T, M  S B.L  R, M  S, N  T C.L  T, M  R, N  S D.L  R, N  S, M  T 5-Minute Check 2

  5. A B C D ___ ___ ___ ___ ___ ___ A.LM  RT, LN  RS, NM  ST B.LM  RT, LN  LR, LM  LS C.LM  ST, LN  RT, NM  RS D.LM  LN, RT  RS, MN  ST ___ ___ ___ ___ ___ ___ ___ ___ ___ ___ ___ ___ ___ ___ ___ ___ ___ ___ Name the corresponding congruent sides for the congruent triangles. 5-Minute Check 3

  6. A B C D Refer to the figure. Find x. A. 1 B. 2 C. 3 D. 4 5-Minute Check 4

  7. A B C D Refer to the figure.Find m A. A. 30 B. 39 C. 59 D. 63 5-Minute Check 5

  8. A B C D A. A  E B. C  D C.AB  DE D.BC  FD ___ ___ ___ ___ Given that ΔABC ΔDEF, which of the following statements is true? 5-Minute Check 6

  9. MA.912.G.4.6Prove that triangles are congruent or similar and use the concept of corresponding parts of congruent triangles. MA.912.G.4.8Use coordinate geometry to prove properties of congruent, regular, and similar triangles. NGSSS

  10. You proved triangles congruent using the definition of congruence. (Lesson 4–3) • Use the SSS Postulate to test for triangle congruence. • Use the SAS Postulate to test for triangle congruence. Then/Now

  11. included angle Vocabulary

  12. Concept 1

  13. ___ ___ ___ ___ Given: QU AD, QD  AU Use SSS to Prove Triangles Congruent Write a flow proof. Prove: ΔQUD ΔADU Example 1

  14. Use SSS to Prove Triangles Congruent Answer: Flow Proof: Example 1

  15. A B C D Which information is missing from the flowproof?Given: AC ABD is the midpoint of BC.Prove: ΔADC  ΔADB ___ ___ ___ ___ A.AC  AC B.AB  AB C.AD  AD D.CB  BC ___ ___ ___ ___ ___ ___ Example 1 CYP

  16. EXTENDED RESPONSE Triangle DVW has vertices D(–5, –1), V(–1, –2), and W(–7, –4). Triangle LPM has vertices L(1, –5), P(2, –1), and M(4, –7).a. Graph both triangles on the same coordinate plane.b. Use your graph to make a conjecture as to whether the triangles are congruent. Explain your reasoning.c. Write a logical argument that uses coordinate geometry to support the conjecture you made in part b. Example 2A

  17. Read the Test ItemYou are asked to do three things in this problem. In part a, you are to graph ΔDVW and ΔLPM on the same coordinate plane. In part b, you should make a conjecture that ΔDVW ΔLPM or ΔDVW ΔLPM based on your graph. Finally, in part c, you are asked to prove your conjecture. / Solve the Test Itema. Example 2B

  18. b. From the graph, it appears that the triangles have the same shapes, so we conjecture that they are congruent. c. Use the Distance Formula to show all corresponding sides have the same measure. Example 2C

  19. Example 2C

  20. Answer:WD = ML, DV = LP, and VW = PM. By definition of congruent segments, all corresponding segments are congruent. Therefore, ΔWDV  ΔMLP by SSS. Example 2 ANS

  21. A B C Determine whether ΔABCΔDEFfor A(–5, 5), B(0, 3), C(–4, 1), D(6, –3), E(1, –1), and F(5, 1). A. yes B. no C. cannot be determined Example 2A

  22. Concept 2

  23. ENTOMOLOGY The wings of one type of moth form two triangles. Write a two-column proof to prove that ΔFEG  ΔHIG if EI  HF, and G is the midpoint of both EI and HF. Use SAS to Prove Triangles are Congruent Example 3

  24. Given:EIHF; G is the midpoint of both EI and HF. Proof: Statements Reasons 1. EI HF; G is the midpoint ofEI; G is the midpoint of HF. 1. Given 2. 2. Midpoint Theorem 3. FGE  HGI 4. ΔFEG ΔHIG 3. Vertical Angles Theorem 4. SAS Use SAS to Prove Triangles are Congruent Prove:ΔFEGΔHIG Example 3

  25. A B C D Proof: Statements Reasons 1. Given 1. ? Property 2. _________ 2. 3. SSS 3. ΔABGΔCGB A. Reflexive B. Symmetric C. Transitive D. Substitution Example 3

  26. Use SAS or SSS in Proofs Write a paragraph proof. Prove: Q  S Example 4

  27. Use SAS or SSS in Proofs Answer: Example 4

  28. A B C D Choose the correct reason to complete the following flow proof. A. Segment Addition Postulate B. Symmetric Property C. Midpoint Theorem D. Substitution Example 4

  29. End of the Lesson

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