Help ASAPP!!!!! redo the 3 starred questions, i have got feedback fro my teacher from my previous attempt, plz use it to help do the quesitons

Unit A Module 2, Lesson 2: Vectors and Cartesian and Navigational Directions Lesson 1 of this assignment is worth 37 marks. The value of each question is noted in the left margin in parentheses. 5. Use the vectors below to answer parts af, which walk you through the steps of numerical vector addition. Show all necessary work including calculations, vectors diagrams, and directions {polar positive notation.) Vector 1: 75.5 m/s [210] Vector 2: 120 111/53 [325] a) Sketch a rough vector diagram for Vector l, and use your sketch to calculate its components. 5 . \\lu : 75-3 {2'01 \"/5 $1 ; 12.0 E3251 \"16 ~ -. 37945 W -s-'=-r M" = 4m . a _. .73 u- 3 - -1s.s;.,m3 -""" \"is b) Sketch a rough vector diagram for Vector 2, and use your sketch to calculate its components. \\l 2 'JL 1 iQN D X 00533': @7526le V7.3 : lZOxslnES ; 3.37\" ro=s.'6ml> Physics 20: Mrs. Tyler Assignment 3 5 c) Using your results from a and b, determine the components of the resultant vector. (2) V. => resultant vector Veu = Vix "V22 =- 65. 38 + 98. 29 = 32. 918m/S ( 32.9 MB VRy : Viy + vzy : - 37.75- 68.82 : - 186.57 mrs d) Draw a rough sketch the resultant vector using the components found in part c. (1) e) Calculate the resultant magnitude using your sketch from part d. (1) f) Calculate the resultant direction using your sketch from part d. Use polar-positive notation. (2) Zon b = VRY = - 106.04 VRU 32.92 O = ton -" (- 106.04 - - 72.75 32.92 / Polar Positive Notation : 0 = 360' - 72.7s' - 287.25 ADLC All Rights Reserved (2019 - 28702:43 PM Sun Sep 17 00. it cvws.icloudcontent.com Unit A Module 2, Lesson 2: Vectors and Cartesian and Navigational Directions Lesson 1 of this assignment is worth 37 marks. The value of each question is noted in the left margin in parentheses. Use the vectors below to answer parts af, which walk you through the steps of numerical vector addition. Show all necessary work including calculations, vectors diagrams, and directions (polar positive notation.) Vector 1: 75.5 m/s [210\"] Vector 2: 120 m/s [3250] 3) Sketch a rough vector diagram for Vector 1, and use your sketch to calculate its components. 7' .-. 155:1\") MLS .5 V: .: 001:3sz """ Vim: - 1.5. 5* 9430' -. - 65-38 mls \\J'j ; 75-5 7: Sn 90' = - 37-15mb ' resultant vector I needs to be shown Here Please round to 3 sig digs for full marks. b) Sketch a rough vector diagram for Vector 2, and use your sketch to calculate its components. Good, please include resultant vector and review how many sig digs should be in your answer. 2:43 PM Sun Sep 17 . . . 48% cvws.icloud-content.com 5 of 10 5 Physics 20: Mrs. Tyler Assignment 3 c) Using your results from a and b, determine the components of the resultant vector. (2) VR = > resultant vector 1.5/2 Ve = V , * V 2 Sig digs UR2 = Via + V2n = - 65.38 + 98.29 = 32. 9/8 mb VRY = Viy LVZy = - 37. 75- 68-82 = 106. Oumls -106.57 d) Draw a rough sketch the resultant vector using the components found in part c. (1) 0.75 Vax = 32 . 92 mls We should only see one resultant vector here. VR e) Calculate the resultant magnitude using your sketch from part d. (1) Resultant = 1 VR/ = JURa + VRy 2 = (32. 92) 2 + (106. 64) 2 111.03mls f) Calculate the resultant direction using your sketch from part d. Use polar-positive notation. (2 ) tangy = Ry = - 106.04 Ven 1.75 32.92 3 sig digs 5 = Zon" (- 106.09 32.92 = - 72. 750 Polar Positive notation : 0= 360"- 72.75 287.25 ADLC All Rights Reserved (2019)