You are standing on the ground at the origin of a coordinate system. An airplane flies over you with constant velocity parallel to the x-axis and at a height of 7.60 x 103 At timet = 0s, the airplane is directly above you so that the vector leading from you to it is Po = 7.60 x 103 m. At t = 30 s, the position vector leading from you to the air is P30 = (8.04 x 103 +7.60 x 103)m as suggested in Figure. Determine the magnitude and orientation of the airplane's position vector pat t = 45 S.
You are standing on the ground at the origin of a coordinate system. An airplane flies over you with constant velocity parallel to the x-axis and at a height of 7.60 x 103 At timet = 0s
You are standing on the ground at the origin of a coordinate system. An airplane flies over you with constant velocity parallel to the x axis and at a constant height of 8.00 103 m. At t = 0, the airplane is directly above you so that the vector leading from you to it is P0 = 8.00 103ĵ m. At t = 30.0 s the position vector leading from you to the airplane is P30 = (7.80 103î +...
You are standing on the ground at the origin of a coordinate system. An airplane flies over you with constant velocity parallel to the als and at a constant height o 7.95 × 10 m. At 1 directly above you so lhal lhe vector lead ng rom you Lll is po-7.95 x 10 m. AI I 30.0 s lhe pusilion vector leading rom you lo Lhe ar plane is p30- 8.98 x 1031+ 7.95 x 10 figure below. Determine the...
A bus driver heads south with a steady speed of v1=20.0 m/s for t1=3.00 min, then makes a right turn and travels at v2=25.0 m/s for t2=2.60 min, and then drives northwest at v3=30.0 m/s for t3=1.00 min For this 6.60-min trip, calculate the following. Assume +x is in the eastward direction. (a) total vector displacement (Enter the magnitude in m and the direction in degrees south of west.) (b) average speed (in m/s) (c) average velocity (Enter the magnitude in m/s and...