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

An 79-kg jogger is heading due east at a speed of 3.0 m/s. A 72-kg jogger...

An 79-kg jogger is heading due east at a speed of 3.0 m/s. A 72-kg jogger is heading 51 ° north of east at a speed of 3.4 m/s. Find (a) the magnitude and (b) the direction of the sum of the momenta of the two joggers. Describe the direction as an angle with respect to due east.

A jogger ran for 15 minutes at 4 mph in the direction 50 degrees South of...

A jogger ran for 15 minutes at 4 mph in the direction 50 degrees South of West. Then she stopped, turned to the East, and ran with a constant acceleration of 0.2 m/s^2 for 1.0 minutes. She stopped again, turned, and ran back to the gym with a constant velocity. In all, she spent 40 minutes running and jogging. a) What was her velocity (Magnitude and Direction) as she was running back to the gym? b)Write the vector of the...

1. An object moves with velocity vector [11,8] measured in m/s. a) What is the object's...

1. An object moves with velocity vector [11,8] measured in m/s. a) What is the object's speed in the x direction? b) What is the object's speed in the y direction? 2. A car goes 5.0 km east, then 3.0 km west, then 2.0 km north. Determine the car's displacement and represent it a) as a vector b) in polar coordinates (r, θ) ie magnitude and direction.

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

Consider two vectors ?⃗⃗ :( 30.0 m, 20.0degrees North of East) and ?⃗⃗ : (50.0 m, 30.0degrees West of North). a- Represent both vectors in an x-y coordinate system and find the components of vector ?⃗⃗ and ?⃗⃗⃗ . b- Express vector ?⃗⃗ = ?? ⃗⃗⃗ - ?/3 ?⃗⃗⃗ as a linear combination of the unit vectors. c- Calculate the magnitude and direction of vector ?⃗⃗

-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...

A grasshopper makes four jumps. The displacement vectors are (1) 34.0 cm, due west; (2) 33.0...

A grasshopper makes four jumps. The displacement vectors are (1) 34.0 cm, due west; (2) 33.0 cm, 41.0 ° south of west; (3) 22.0 cm, 56.0 ° south of east; and (4) 18.0 cm, 57.0 ° north of east. Find (a) the magnitude and (b) direction of the resultant displacement. Express the direction as a positive angle with respect to due west.

A grasshopper makes four jumps. The displacement vectors are (1) 38.0 cm, due west; (2) 27.0...

A grasshopper makes four jumps. The displacement vectors are (1) 38.0 cm, due west; (2) 27.0 cm, 42.0 ° south of west; (3) 20.0 cm, 66.0 ° south of east; and (4) 23.0 cm, 77.0 ° north of east. Find (a) the magnitude and (b) direction of the resultant displacement. Express the direction as a positive angle with respect to due west.

Brian's wolf ghost runs 50 m northwest, then 70 m west and finally 20 m south....

Brian's wolf ghost runs 50 m northwest, then 70 m west and finally 20 m south. Draw a graphical representation of ghosts movement. Calculate ghost's net displacement a) in a component form and b) as a magnitude and an angle

At one instant a bicyclist is 45.0 m due east of a park's flagpole, going due...

At one instant a bicyclist is 45.0 m due east of a park's flagpole, going due south with a speed of 14.0 m/s. Then 32.0 s later, the cyclist is 45.0 m due north of the flagpole, going due east with a speed of 14.0 m/s. For the cyclist in this 32.0 s interval, what are the (a) magnitude and (b) direction of the displacement, the (c) magnitude and (d) direction of the average velocity, and the (e) magnitude and...

At one instant a bicyclist is 26.0 m due east of a park's flagpole, going due...

At one instant a bicyclist is 26.0 m due east of a park's flagpole, going due south with a speed of 15.0 m/s. Then 20.0 s later, the cyclist is 26.0 m due north of the flagpole, going due east with a speed of 15.0 m/s. For the cyclist in this 20.0 s interval, what are the (a) magnitude and (b) direction of the displacement, the (c) magnitude and (d) direction of the average velocity, and the (e) magnitude and...