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A hiker begins her trip away from her car by first walking 380 km east. She...
1. A hiker begins her trip away from her car by first walking 36.0 km west....
1. A hiker begins her trip away from her car by first walking 36.0 km west. She stops and sets up her tent for the night. On the second day, she walks 25.0 km in a direction that makes an angle of 30.0° south of east, at which point she discovers a forest ranger's tower. Determine the magnitude of her total displacement. km 2. A vector A has a magnitude of 58.0 m and points in a direction 22.0° below...
1. A hiker begins her trip away from her car by first walking 35.0 km west....
1. A hiker begins her trip away from her car by first walking 35.0 km west. She stops and sets up her tent for the night. On the second day, she walks 22.0 km in a direction that makes an angle of 33.0° south of west, at which point she discovers a forest ranger's tower. Determine the magnitude of her total ment. km 2. A vector A has a magnitude of 60.0 m and points in a direction 28.0° above...
1. A hiker begins her trip away from her car by first walking 36.0 km west....
1. A hiker begins her trip away from her car by first walking 36.0 km west. She stops and sets up her tent for the night. On the second day, she walks 18.0 km in a direction that makes an angle of 250° north of east, at which point she discovers a forest ranger's tower. Determine the magnitude of her total displacement. km 2. A vector A has a magnitude of 48.0 m and points in a direction 22.0° below...
1. A hiker begins her trip away from her car by first walking 30.0 km west....
1. A hiker begins her trip away from her car by first walking 30.0 km west. She stops and sets up her tent for the night. On the second day, she walks 20.0 km in a direction that makes an angle of 35.0 north of west, at which point she discovers a forest ranger's tower. Determine the magnitude of her total displacement km 2. A vector A has a magnitude of 50.0 m and points in a direction 28.0° above...
A hiker begins her trip away from her car by first walking 32.0 km east. She...
A hiker begins her trip away from her car by first walking 32.0 km east. She stops and sets up her tent for the night. On the second day, she walks 22.0 km in a direction that makes an angle of 20.0° north of west, at which point she discovers a forest ranger's tower. Determine the magnitude of her total displacement.
A hiker begins her trip away from her car by first walking 33.0 km west. She...
A hiker begins her trip away from her car by first walking 33.0 km west. She stops and sets up her tent for the night. On the second day, she walks 15.0 km in a direction that makes an angle of 26.0° north of east, at which point she discovers a forest ranger's tower. Determine the magnitude of her total displacement.
1. A hiker begins her trip away from her car by first walking 38.0 km west....
1. A hiker begins her trip away from her car by first walking 38.0 km west. She stops and sets up her tent for the night. On the second day, she walks 21.0 km in a direction that makes an angle of 31.0° south of east, at which point she discovers a forest ranger's tower. Determine the magnitude of her total displacement.
A hiker begins a trip by first walking 23.0km southeast from her base camp. On the...
A hiker begins a trip by first walking 23.0km southeast from her base camp. On the second day she walks 45.0 km in a direction 60.0° north of east, at which point she discovers a forest ranger's tower. (a) Determine the components of the hiker's displacements in the first and second days. Ax= km Ay= km Bx= km By= km (b) Determine the components of the hiker's total displacement for the trip. Rx= km Ry= . km (c) Find the...
1. A person first walked 30.0 km east, and then walked 20.0 km in a direction...
1. A person first walked 30.0 km east, and then walked 20.0 km in a direction that makes an angle of 35.0° north of east.Determine the magnitude of his total displacement. 2.A vector →A has a magnitude of 50.0 m and points in a direction 30.0° above the positive x-axis. A second vector, →B, has a magnitude of 80.0 m and points in a direction 60.0° above the negative x-axis. Using the component method, find the magnitude of the vector...
2. A vector Ä has a magnitude of 60.0 m and points in a direction 20.0°...
2. A vector Ä has a magnitude of 60.0 m and points in a direction 20.0° below the positive x-axis. A second vector, B, h as a magnitude of 84.0 m and ints in a direction 58.0° below the negative x-axis. Using the component method, find the magnitude of the vector R-A+ B tude of 84.0 m and
1. A hiker begins her trip away from her car by first walking 36.0 km west. She stops and sets up her tent for the night. On the second day, she walks 25.0 km in a direction that makes an angle of 30.0° south of east, at which point she discovers a forest ranger's tower. Determine the magnitude of her total displacement. km 2. A vector A has a magnitude of 58.0 m and points in a direction 22.0° below...
1. A hiker begins her trip away from her car by first walking 35.0 km west. She stops and sets up her tent for the night. On the second day, she walks 22.0 km in a direction that makes an angle of 33.0° south of west, at which point she discovers a forest ranger's tower. Determine the magnitude of her total ment. km 2. A vector A has a magnitude of 60.0 m and points in a direction 28.0° above...
1. A hiker begins her trip away from her car by first walking 36.0 km west. She stops and sets up her tent for the night. On the second day, she walks 18.0 km in a direction that makes an angle of 250° north of east, at which point she discovers a forest ranger's tower. Determine the magnitude of her total displacement. km 2. A vector A has a magnitude of 48.0 m and points in a direction 22.0° below...
1. A hiker begins her trip away from her car by first walking 30.0 km west. She stops and sets up her tent for the night. On the second day, she walks 20.0 km in a direction that makes an angle of 35.0 north of west, at which point she discovers a forest ranger's tower. Determine the magnitude of her total displacement km 2. A vector A has a magnitude of 50.0 m and points in a direction 28.0° above...
2. A vector Ä has a magnitude of 60.0 m and points in a direction 20.0° below the positive x-axis. A second vector, B, h as a magnitude of 84.0 m and ints in a direction 58.0° below the negative x-axis. Using the component method, find the magnitude of the vector R-A+ B tude of 84.0 m and
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