(b) How far are you from your starting point? If you represent the two legs of the walk as vector displacements A and B, then this problem asks you to find their sum R = A + B. Enter to 3 significant figures R= m (c) What is the direction (angle) of a line connecting your starting point to your final position with respect to east (the positive x-axis)? Enter to 3 significant figures 8= degrees Sense-making: Is there an upper bound or a maximum value the resultant can have? Is your answer consistent with this upper bound?

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Chapter1: Units, Trigonometry. And Vectors
Section: Chapter Questions
Problem 1CQ: Estimate the order of magnitude of the length, in meters, of each of the following; (a) a mouse, (b)...
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Homework: Walking West then North, Part 2 - Solve
Analytically
Your diagram for Vectors HW: Question 1, Part 1 should have looked like this:
Leg 2: 25 m
West
R: 30.81 mm
20m
Please answer the following question(s):
10m
Ler 1-18 m
-22m-20m-18m -16m -14m-12m-10m-8m -6m-4m
4m -2m 0
-10m
-20m
North
East
2m 4m
4m 6m 8m 10m 12m
1. Drag and drop the heads
and tails of Leg 1 and Leg 2
to compose the vector
Leg 1: East/West
Leg 2: North/South
2. Show the vector sum R
South
1. ANALYTICAL METHOD OF ADDING VECTORS
Solve the same problem as PART 1 but this time analytically. START with the values
below. DO NOT USE VALUES FROM PART 1.
Suppose you walk 18.0 m straight west and then 25.0 m straight north. Let the positive x-axis
coincide with east and the positive y-axis be oriented in the northern direction.
Transcribed Image Text:1 2 Homework: Walking West then North, Part 2 - Solve Analytically Your diagram for Vectors HW: Question 1, Part 1 should have looked like this: Leg 2: 25 m West R: 30.81 mm 20m Please answer the following question(s): 10m Ler 1-18 m -22m-20m-18m -16m -14m-12m-10m-8m -6m-4m 4m -2m 0 -10m -20m North East 2m 4m 4m 6m 8m 10m 12m 1. Drag and drop the heads and tails of Leg 1 and Leg 2 to compose the vector Leg 1: East/West Leg 2: North/South 2. Show the vector sum R South 1. ANALYTICAL METHOD OF ADDING VECTORS Solve the same problem as PART 1 but this time analytically. START with the values below. DO NOT USE VALUES FROM PART 1. Suppose you walk 18.0 m straight west and then 25.0 m straight north. Let the positive x-axis coincide with east and the positive y-axis be oriented in the northern direction.
1. ANALYTICAL METHOD OF ADDING VECTORS
Solve the same problem as PART 1 but this time analytically. START with the values
below. DO NOT USE VALUES FROM PART 1.
Suppose you walk 18.0 m straight west and then 25.0 m straight north. Let the positive x-axis
coincide with east and the positive y-axis be oriented in the northern direction.
(b) How far are you from your starting point? If you represent the two legs of the walk as
vector displacements A and B, then this problem asks you to find their sum R=A+B.
Enter to 3 significant figures
R=
m
(c) What is the direction (angle) of a line connecting your starting point to your final position
with respect to east (the positive x-axis)?
Enter to 3 significant figures
e=
degrees
Sense-making: Is there an upper bound or a maximum value the resultant can have? Is
your answer consistent with this upper bound?
Transcribed Image Text:1. ANALYTICAL METHOD OF ADDING VECTORS Solve the same problem as PART 1 but this time analytically. START with the values below. DO NOT USE VALUES FROM PART 1. Suppose you walk 18.0 m straight west and then 25.0 m straight north. Let the positive x-axis coincide with east and the positive y-axis be oriented in the northern direction. (b) How far are you from your starting point? If you represent the two legs of the walk as vector displacements A and B, then this problem asks you to find their sum R=A+B. Enter to 3 significant figures R= m (c) What is the direction (angle) of a line connecting your starting point to your final position with respect to east (the positive x-axis)? Enter to 3 significant figures e= degrees Sense-making: Is there an upper bound or a maximum value the resultant can have? Is your answer consistent with this upper bound?
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