A vector is traveling 46.5 degrees North of West for 2.5 N. Another vector is traveling 46.5 degrees North of East for 2.5 N. What are the x and y components of both vectors? The resultants of both vectors?
A vector is traveling 46.5 degrees North of West for 2.5 N. Another vector is traveling...
to a 4.0e north of west. Vector B points 62.0" east of north. vector C points 11.0 west of south. These three of the following vectors vectors add to give a resuitant vector that is zero. Using components, find the Section 1.8 (a) due east (b) due north kom
Vector A has a magnitude of 146 units and points 36.0° north of west. Vector B points 63.0° east of north. Vector points 16.0° west of south. These three vectors add to give a resultant vector that is zero. Using components, find the magnitudes of the following vectors e) vector B x units (b) vector C x units Enter a number
Vector A has a length of 3 cm and points 37 degrees west of north. Vector B has a length of 7 cm and points 27 degrees east of north. What is nothern component of A+B and A-B?
Vector A with arrow has a magnitude of 144 units and points 30.0° north of west. Vector B with arrow points 67.0° east of north. Vector C with arrow points 14.0° west of south. These three vectors add to give a resultant vector that is zero. Using components, find the magnitudes of the following vectors. B C
Vector A with arrow has a magnitude of 141 units and points 33.0° north of west. Vector B with arrow points 69.0° east of north. Vector C with arrow points 14.0° west of south. These three vectors add to give a resultant vector that is zero. Using components, find the magnitudes of the following vectors. a. Vector B b. Vector C
If
you subtract vector 3.7cm at 45 degrees North of East from vector
4.5cm at 57 degrees West of North using a scale drawing, what is
the resultant vector?
5. If you subtract vector 3.7 cm at 45° North of East from vector 4.5 cm at 57e West of North using a scale drawing, what is the resultant vectori? O approximately 6.5 cm at 3° South of West O approximately 5.1 cm at 12° West of North approximately 5.8 cm...
A girl delivering newspapers covers her route by traveling 6.00 blocks west, 6.00 blocks north, and then 7.00 blocks east. (a) What is her final position relative to her starting location? (Enter the magnitude in blocks and the direction in degrees north of east.) magnitude ______ blocks direction ______ ° north of east (b) What is the length (in blocks) of the path she walked? ______ blocks
A ship (pt B) is trying to travel in a north-west direction (45
degrees from North). The water current (pt A) is flowing due east
with a velocity of 2 mph. The magnitude of the relative velocity of
the ship to the current is 5 mph. Express the direction of the
ship’s velocity vector relative to the water in unit vector
form.
rA)
An airplane is headed towards the north east from the south west (45 degrees). There is a cross wind with a speed of 10 m/s out of the west (heading east). The airplane needs to be aligned with the runway which is 53 degrees northeast (53 degrees above the horizontal axis). What airspeed should the pilot be flying the airplane at? Vplane=Vwind+Vplane/wind the magnitude of the first term the magnitude of the third term the magnitude of the second term...
A cyclist rides 3.0 km due west, then 17.0 km 15° west of north. From this point she rides 9.0 km due east. What is the final displacement from where the cyclist started (in km)? (Express your answer in vector form. Assume the +x-axis is to the east, and the +y-axis is to the north.)