1 / 14

DRILL

DRILL. If M is the midpoint of AB and MA = 7, find AB and MB. 2) What is the mean(average) of 17 and 27? 3)Solve for x: 4x - 10 = 2x + 30. AB = 14 & MB = 7. Mean is 22. X = 20. Look Ahead

glynn
Télécharger la présentation

DRILL

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. DRILL • If M is the midpoint of AB and MA = 7, find AB and MB. 2) What is the mean(average) of 17 and 27? 3)Solve for x: 4x - 10 = 2x + 30 AB = 14 & MB = 7 Mean is 22 X = 20

  2. Look Ahead • Make a list of a few jobs where you may need to know how to find the length of a segment in a triangle. • Carpenter, Architecture, Model Builder, Engineer, Surveyor, any Construction Field.

  3. Objectives: 4.4Midsegment of a Triangle • Identify the midsegments of a triangle. • Use properties of midsegments of a triangle.

  4. Midsegment of a Triangle * A midsegment of a triangle is a segment that connects the midpoints of two sides of a triangle. * The Midsegment of a Triangle is equal to one-half the third side, as well as parallel to the third side.

  5. Examples x = 23 x 46

  6. Examples x =10 3x 4x + 20

  7. A B Explain how you would be able to use the triangle midsegment theorem in order to find the distance across the lake?

  8. Show that the midsegment MN is parallel to side JK and is half as long. Use the midpoint formula. Ex. 1: Using midsegments

  9. M= -2+6 , 3+(-1) 2 2 M = (2, 1) And N = 4+6 , 5+(-1) 2 2 N = (5, 2) Next find the slopes of JK and MN. Slope of JK = 5 – 3 = 2 = 1 4-(-2) 6 3 Slope of MN= 2 – 1 = 1 5 – 2 3 ►Because their slopes are equal, JK and MN are parallel. You can use the Distance Formula to show that MN = √10 and JK = √40 = 2√10. So MN is half as long as JK. Solution:

  10. UW and VW are midsegments of ∆RST. Find UW and RT. SOLUTION: UW = ½(RS) = ½ (12) = 6 RT = 2(VW) = 2(8) = 16 Ex. 2: Using the Midsegment Theorem

  11. Write a coordinate proof of the Midsegment Theorem. Place points A, B, and C in convenient locations in a coordinate plane, as shown. Use the Midpoint formula to find the coordinate of midpoints D and E. Coordinate Proof

  12. Coordinate Proof D = 2a + 0 , 2b + 0 = a, b 2 2 E = 2a + 2c , 2b + 0 = a+c, b 2 2 Find the slope of midsegment DE. Points D and E have the same y-coordinates, so the slope of DE is 0. ►AB also has a slope of 0, so the slopes are equal and DE and AB are parallel.

  13. Now what? Calculate the lengths of DE and AB. The segments are both horizontal, so their lengths are given by the absolute values of the differences of their x-coordinates. AB = |2c – 0| = 2c DE = |a + c – a | = c ►The length of DE is half the length of AB.

  14. DF = ½ AB = ½ (10) = 5 EF = ½ AC = ½ (10) = 5 ED = ½ BC=½ (14.2)= 7.1 ►The perimeter of ∆DEF is 5 + 5 + 7.1, or 17.1. The perimeter of ∆ABC is 10 + 10 + 14.2, or 34.2, so the perimeter of the triangle formed by the midsegments is half the perimeter of the original triangle. Perimeter of Midsegment Triangle

More Related