In the diagram, a has magnitude of 10m and b has magnitude 15m. Find the magnitude...
Three vectors are shown in the diagram below. Find the
resultant vector (magnitude and direction):
A = 120lb @ 37 degrees
B = 160lb @ 143 degrees
C = 100lb @ 240 degrees
Problem #4. Three vectors are shown in the diagram below. Find the resultant vector (magnitude and direction): B - 100D 143° A.- 120 h @ 37" C-100D ) 240 •
Vector A has a magnitude of 15m in the negative x direction and 20m in the positive y direction. a) What is the magnitude of vector A? b) What is the angle of vector A as measured counterclockwise from the x-axis?
29 and 30
a. 3s b. 4s c. 8s d. 16s 28. How far did the shell travel horizontally when it hit the ground? Assume there were no obstacles in the way and the landing point is at the same elevation as the launch point a. 1532m b. 885m c. 750m d. 375m c 68" x 23.0 m A 49° 29. Find the magnitude of the resultant vector R: R 2A-B+ .2C a. 15m b. 28m c. 32m d. 40m...
(b) Given that has a magnitude of 5 units and is directed East, B has a magnitude of 5 units and is directed North East,-C has a magnitude of 5 units and is directed West. Find the magnitude and direction of the resultant vector when the vectors are added together using: () the algebraic method, and (i) the graphical method
(b) Given that has a magnitude of 5 units and is directed East, B has a magnitude of 5 units...
Find the magnitude and direction of vector S Where S=A+B+C Vector A has a magnitude of 9.2 Meters at an angle of 40.6 degrees, Vector B has a magnitude of 10.8 meters at an angle of -33.7 ,Vector C has scalar components of Cx=8m and Cy=-4m
Displacement vector A points due east and has a magnitude of 2.98 km. Displacement vector B points due north and has a magnitude of 1.54 km. Displacement vector C boints due west and has a magnitude of 1 km. Displacement vector D points due south and has a magnitude of 1.4 km. Find the magnitude and direction (relative to due east) of the resultant vector A +B+C+D. magnitude direction km ocounterdlockwise from due east Additional Materials section 1 8
Displacement vector A points due east and has a magnitude of 2.26 km. Displacement vector B points due north and has a magnitude of 1.18 km. Displscement vector C points due west and has a magnitude of 1.4 km. Displacement vector D points due south and has a magnitude ef 1.4 km. Find the magnitude and direction (relative to du east) of the resultant vector A + B+C D. magnitude direction kim e counterclockwise from due east Section 1.8
Part B Constants Find the magnitude of the resultant displacement, using the method of components. A disoriented physics professor drives 3.30 km north, then 2.80 km west, and then 1.60 km south. Express your answer with the appropriate units R- 1 Value Units Submit Part C Find the direction of the resultant displacement measured west of north. west of north Submit Answer Part D Show that the resultant displacement found from your diagram is in qualitative agreement with the result...
Reter to Problem 4. Find the following a) the scalar product A, b) the magnitude of A, c) the magnitude of Ề, d) the angle between A and 5. e) the scalar productでD ICI g) 31 h) the angle between andT 6. Given the vectors: a-介-31 + k, b -- 1 + j Find the following a) A vector such that a bo, b) A vector a such that 2 a 3. d o, c) the magnitude of , e)...
Part C (LINEAR MOMENTUM) Problem CI: Three spherical objects moving as shown in the diagram. m, 4kg. agram, m,- 4kg.m2 = 2mm 3m. , vz =10m/ v 5m/s 30° 60° V, 15m/s my Find the magnitude and direction of the total momentum of the spheres.