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...

The following force vectors act on an object: i) 50.0 newtons at 45.0 degree north of...

The following force vectors act on an object: i) 50.0 newtons at 45.0 degree north of east and ii)50.0 newtons at 30.0 degree south of east. Which of the following represents the magnitude of the resultant and its angle relative to the easterly direction? Question 3 options: 79.3 newtons 7.50 degree 61.4 newtons 21.8 degree 23.4 newtons 18.3 degree 12.8 newtons 37.5 degree

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)

The mathematical definition of momentum is that it is the quantity given by the product of...

The mathematical definition of momentum is that it is the quantity given by the product of the mass and velocity of an object. Since velocity is a vector quantity, so then is momentum. Recall that vector quantities are described by both magnitude and direction, whereas scalar quantities, e.g., speed, do not consider direction, only magnitude. We have used vectors for velocity and force situations, now momentum because of its relationship to velocity. Consider a 100 kg hockey player skating at...

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...

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 =