(1) The displacement vector A as a length LA and a direction θ east of north;...
(1) The displacement vector A las a length La and a direction east of north; the displacement vector B has a length Le and a direction west of north. What are the magnitude and direction of Ax B? (b) B x A? (c) Write out the vector A x B in terms of the unit vectors i, j, and k. [15 pts] (2) A boat with a maximum speed v (relative to the water) is on one shore of a...
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
Displacement vector points due east and has a magnitude of 3.18 km. Displacement vector points due north and has a magnitude of 9.11 km. Displacement vector points due west and has a magnitude of 6.21 km. Displacement vector points due south and has a magnitude of 2.86 km. Find (a) the magnitude of the resultant vector + + + , and (b) its direction as a positive angle relative to due west.
Displacement vector A with arrow points due east and has a magnitude of 2.44 km. Displacement vector B with arrow points due north and has a magnitude of 2.8 km. Displacement vector C with arrow points due west and has a magnitude of 1.8 km. Displacement vector Darrowbold points due south and has a magnitude of 1 km. Find the magnitude and direction (relative to due east) of the resultant vector A with arrow + B with arrow + C...
Displacement vectors A, B, and C add up to a total of zero. Vector A has a magnitude of 1550 m and a direction of 23.4° north of east. Vector B has a direction of 41.0° east of south, and vector C has a direction of 35.9° north of west. Find the magnitudes of vector B and vector C. .
Displacement vectors A B, and C add up to a total of zero. Vector A has a magnitude of 1550 m and a direction of 22.9° north of east. Vector B has a direction of 41.0° east of south, and vector C has a direction of 32.3° north of west. Find the magnitudes of vector B and vector C.
Displacement vectors A,B, and C add up to a total of zero. Vector A has a magnitude of 1550 m and a direction of 22.4° north of east. Vector B has a direction of 41.0° east of south, and vector C has a direction of 32.0° north of west. Find the magnitudes (in m) of vector B and vector C.
A pilot flies her route in two straight-line segments. The displacement vector A for the first segment has a magnitude of 256 km and a direction 30.0o north of east. The displacement vector for the second segment has a magnitude of 169 km and a direction due west. The resultant displacement vector is R = A + B and makes an angle θ with the direction due east. Using the component method, find (a) the magnitude of R and (b)...
Vector A points to the north and has length A. Vector B points to the east and has length B = 2.0 A. Find the magnitude of C= 8.8A + B in terms of A.