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

A 379-kg boat is sailing 11.0° north of east at a speed of 1.80 m/s. 35.0...

A 379-kg boat is sailing 11.0° north of east at a speed of 1.80 m/s. 35.0 s later, it is sailing 38.0° north of east at a speed of 4.30 m/s. During this time, three forces act on the boat: a 32.1-N force directed 11.0° north of east (due to an auxiliary engine), a 21.8-N force directed 11.0° south of west (resistance due to the water), and (due to the wind). Find the (a) the magnitude and (b) direction of...

A 373-kg boat is sailing 12.0° north of east at a speed of 2.00 m/s. 31.0...

A 373-kg boat is sailing 12.0° north of east at a speed of 2.00 m/s. 31.0 s later, it is sailing 39.0° north of east at a speed of 4.00 m/s. During this time, three forces act on the boat: a 31.9-N force directed 12.0° north of east (due to an auxiliary engine), a 20.8-N force directed 12.0° south of west (resistance due to the water), and (due to the wind). Find the (a) the magnitude and (b) direction of...

A 362-kg boat is sailing 17.0° north of east at a speed of 1.60 m/s. 40.0...

A 362-kg boat is sailing 17.0° north of east at a speed of 1.60 m/s. 40.0 s later, it is sailing 40.0° north of east at a speed of 4.40 m/s. During this time, three forces act on the boat: a 30.5-N force directed 17.0° north of east (due to an auxiliary engine), a 23.8-N force directed 17.0° south of west (resistance due to the water), and (due to the wind). Find the (a) the magnitude and (b) direction of...

A car with a mass of 1,400 kg and a speed of 15 m/s heading north...

A car with a mass of 1,400 kg and a speed of 15 m/s heading north approaches an intersection. At the same time, a minivan with a mass of 1,800 kg and speed of 22 m/s heading east is also approaching the intersection. The car and the minivan collide and stick together. What is the velocity of the wrecked vehicles just after the collision? Ignore friction between the tires and the surface of the road. (Enter the magnitude in m/s...

Answer the following question" 1A: The boat in the figure is heading due north as it...

Answer the following question" 1A: The boat in the figure is heading due north as it crosses a wide river with a velocity of 11.5 km/h relative to the water. The river has a uniform velocity of 4.90 km/h due east. Determine the velocity of the boat with respect to an observer on the riverbank. find the magnitude     direction    1B: Suppose the river is flowing east at 2.60 m/s and the boat is traveling south at 4.40 m/s with respect...

Object A (mass 10.0 kg) is moving due east with a velocity of v⃑A0 = 8.00...

Object A (mass 10.0 kg) is moving due east with a velocity of v⃑A0 = 8.00 m s EAST. Object B (mass 18.0 kg) is moving due north with a velocity of v⃑B0 = 5.00 m s NORTH. They collide and stick together. Find the magnitude and direction (in terms of an angle) of the two-object system following the collision.

A 290-m-wide river flows due east at a uniform speed of 1.3m/s. A boat with a...

A 290-m-wide river flows due east at a uniform speed of 1.3m/s. A boat with a speed of 8.9m/s relative to the water leaves the south bank pointed in a direction 34o west of north. What is the (a) magnitude and (b) direction of the boat's velocity relative to the ground? Give the direction as the angle of the velocity from due north, positive if to the east and negative if to the west. (c) How long does it take...

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

A 52.0-kg skater is traveling due east at a speed of 3.30 m/s. A 69.5-kg skater...

A 52.0-kg skater is traveling due east at a speed of 3.30 m/s. A 69.5-kg skater is moving due south at a speed of 7.45 m/s. They collide and hold on to each other after the collision, managing to move off at an angle ? south of east, with a speed of vf. Find the following. (a) the angle ? ° (b) the speed vf, assuming that friction can be ignored m/s

A 52.0-kg skater is traveling due east at a speed of 1.10 m/s. A 67.0-kg skater...

A 52.0-kg skater is traveling due east at a speed of 1.10 m/s. A 67.0-kg skater is moving due south at a speed of 8.90 m/s. They collide and hold on to each other after the collision, managing to move off at an angle south of east, with a speed of vf. Find (a) the angle and (b) the speed vf, assuming that friction can be ignored.