Consider two vectors ?⃗⃗ :( 30.0 m, 20.0degrees North of East) and ?⃗⃗ : (50.0 m,...

Consider the three velocity vectors listed below: • A ⃗ with a magnitude of 25.0 m/s...

Consider the three velocity vectors listed below: • A ⃗ with a magnitude of 25.0 m/s in the direction 25◦ S of W • B⃗ with a magnitude of 18.5 m/s due N • C⃗ with a magnitude of 22.0 m/s in the direction 35◦ E of S Draw a vector diagram showing all three vectors and calculate the x- and y-components of each vector. Use a coordinate system where the +x direction points east and the +y direction points...

1) The magnitude of vector A is 16, that of vector B is 22 and that...

1) The magnitude of vector A is 16, that of vector B is 22 and that of vector C is 44. Vector A pointing north of west with an angle of 32o above the -x axis, vector B is pointing north of east with an angle of 19o clockwise (right) of the +y axis and vector C is pointing south of west with an angle of 58o below the -x axis. a) draw vectors A, B and C in the...

1). A jogger runs 100 m due 30o South of East, then moves 300 m at...

1). A jogger runs 100 m due 30o South of East, then moves 300 m at an angle of 60o North of East. Define vectors A and B, to represent the first and second legs of her jog. Let vector R represent her displacement vector. (a) write vector A and B in unit-vector notation (b) Determine R analytically (c) Make a sketch of the vectors showing the relationship A+B=R (d) Calculate the magnitude and direction of vector R

-Some traveling object is moving 9 m to the north, 5 m to the east and...

-Some traveling object is moving 9 m to the north, 5 m to the east and 20 m to the south.How far from initial point is this object after third leg of its trip? - Some object is traveling 9 meters east and after this 2 meters 60 degrees of east to south. Find tangent of angle created by the final displacement of this object with east direction. - Vector A can written through its components as (9,2,9), vector B...

Displacement vectors A, B, and C add up to a total of zero. Vector A has...

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 34.4° north of west. Find the magnitudes of vector B and vector C.

(a) Consider the following two vectors. a = (4.0 m)  + (4.0 m) b = (-19 m)  +...

(a) Consider the following two vectors. a = (4.0 m)  + (4.0 m) b = (-19 m)  + (9.0 m) What is the direction of a + b? (b) For the vectors  = (2.2 m) + (4.3 m), and  = (5.5 m) - (2.9 m), give the x and y components, magnitudes, and directions of the following vector operations.   - ____?____ = ° (direction from the positive x axis)

While surveying a cave, a spelunker follows a passage 190 m straight west, then 220 m...

While surveying a cave, a spelunker follows a passage 190 m straight west, then 220 m in a direction 45.0 ∘ east of south, and then 270 m at 30.0 ∘ east of north. After a fourth unmeasured displacement, she finds herself back where she started. Use vector components to find the magnitude and direction of the fourth displacement. ∣r⃗4∣∣ = θ4 =

Add the two vectors to find the resultant vector C which is equal to A +B...

Add the two vectors to find the resultant vector C which is equal to A +B             A:  120 feet at 33 degrees North of East             B:  150 feet at 40 degrees South of East Find the component vectors: Ax: Ay: Bx: By: Find the components of C Cx: Cy: Put C back together Add the vectors:             A:  124 miles at 5 degrees North of South             B:  88 miles at 82 degrees North of South Components: Ax: Ay: Bx: By: Cx: Cy: Final Answer: give...

Consider the collision of a 1500-kg car traveling east at 20.0 m/s (44.7 mph) with a...

Consider the collision of a 1500-kg car traveling east at 20.0 m/s (44.7 mph) with a 2000-kg truck traveling north at 25 m/s (55.9 mph). The cars lock together in such a way as to prevent them from separating or rotating significantly. One second before the collision, the car is located at position (x,y) = (-20,0) m and the truck is located at position (x,y) = (0,-25) m. Part a) Calculate the x-coordinate of the center of mass of the...

Two vehicles are approaching an intersection. One is a 2400 kg pickup traveling at 16.0 m/s...

Two vehicles are approaching an intersection. One is a 2400 kg pickup traveling at 16.0 m/s from east to west (the −x- direction), and the other is a 1300 kg sedan going from south to north (the +y− direction at 21.0 m/s ) a-Find the x -component of the net momentum of this system b-Find the y-component of the net momentum of this system. c-What is the magnitude of the net momentum d-What is the direction of the net momentum...