 
									
								
									Chapter 4 Euclidean Geometry
									
... The AA Similarity Theorem is the most well-known. Example 1 is a typical high school problem. Part b requires a careful application of the theorem because most students declare that k = 2 rather than k = 3. The length of side QM is 9 not 6. Example 2 ties the algebraic notion of the Geometric Mean t ...
                        	... The AA Similarity Theorem is the most well-known. Example 1 is a typical high school problem. Part b requires a careful application of the theorem because most students declare that k = 2 rather than k = 3. The length of side QM is 9 not 6. Example 2 ties the algebraic notion of the Geometric Mean t ...
									5 Ways To Show Triangle Congruence
									
... corresponding non-included side of a second triangle, then the two triangles are congruent. Example: Given Δ ABC and Δ DEF, if angle A = angle D, angle C = angle F, and BC = EF, then Δ ABC = Δ DEF. 5. HL = HL Congruence Postulate - if the leg and hypotenuse of one right triangle is congruent to the ...
                        	... corresponding non-included side of a second triangle, then the two triangles are congruent. Example: Given Δ ABC and Δ DEF, if angle A = angle D, angle C = angle F, and BC = EF, then Δ ABC = Δ DEF. 5. HL = HL Congruence Postulate - if the leg and hypotenuse of one right triangle is congruent to the ...
									CHAPTER 2: MATH NOTES Angle Relationships Naming Parts of
									
... Since ‘x’ equals 3y+1, replace the ‘x’ in the second problem with (−3y + 1) to get 4(−3y + 1) − 3y = −11. This equation now has only one variable and can then be solved. Distribute, combine liketrms and solve for ‘y’. In this case, y = 1. Once you solve for ‘y’, plug it back into the origina ...
                        	... Since ‘x’ equals 3y+1, replace the ‘x’ in the second problem with (−3y + 1) to get 4(−3y + 1) − 3y = −11. This equation now has only one variable and can then be solved. Distribute, combine liketrms and solve for ‘y’. In this case, y = 1. Once you solve for ‘y’, plug it back into the origina ...
 
									 
									 
									 
									 
									 
									 
									 
									 
									 
									 
									 
									 
									 
									 
									 
									 
									 
									 
									 
									 
									 
									 
									