Solve the following problem using analytical techniques: Suppose you walk 18.5 m straight west and then...
Suppose you walk 18.0 m straight west and then 25.0 m straight north. (If you represent the two legs of the walk as vector displacements A and B, as in the figure below, then this problem asks you to find their sum R = A + B.) How far, in meters, are you from your starting point? What is the compass direction of a line connecting your starting point to your final position measured in degrees west of north?
Suppose you first walk A = 14.0 m in a direction θ1 = 18° west of north and then B = 27.5 m in a direction θ2 = 37.0° south of west. How far are you from your starting point, and what is the compass direction of a line connecting your starting point to your final position? (If you represent the two legs of the walk as vector displacements A and B, as in the figure below, then this problem...
Suppose you first walk 12.0 m in a direction 20° west of north and then 20.0 m in a direction 40.0° south of west. How far are you from your starting point, and what is the compass direction of a line connecting your starting point to your final position? (If you represent the two legs of the walk vector displacements A and B, as in Figure 3.56, then this problem finds their sum R = A + B.)
Suppose you first walk 6.5 m in a direction 20.0° west of north and then 18.5 m in a direction 40.0° south of west. Part (a) How far are you from your starting point in meters? Part (b) What is the angle, in degrees, of the compass direction of a line connecting your starting point to your final position measured south of west? Part (c) Repeat part (a), but for the second leg you walk 18.5m in a direction 40.0 north of east. Part...
Vector Addition and Subtraction: Graphical Methods Use graphical methods to solve these problems. You may assume data taken from graphs is accurate to three digits. 1. Find the following for path A in Fiqure 3.53: (a) the total distance traveled, and (b) the magnitude and direction of the displacement from start to finish. Figure 3.53 The various lines represent paths taken by different people walking in a city. All blocks are 120 m on a side. 2. Find the following for path B in Figure...
(18 %) Problem 3: west of north Suppose you walk 11 m in a direction exactly 25° south of west then you walk 18 m in a direction exactly 44° 25% Part (a) How far are you from your starting point in m? R- 19.26 X Attempts Remain × 25% Part (b) What is the angle of the compass direction of a line connecting your starting point to your final position measured North of West in degrees? Grade Summary Deductions...
Suppose you walk 13.5 m in a d rection exactly 24° south of west then you walk 195 m in a d rection exactly 42° west of north.Part (a) How far are you from your starting point, in meters?Part (b) What is the angle of the compass direction of a line connecting your starting point to your final position measured North of West in degrees?
Suppose you walk 14.0 m straight west and then 22.0 m straight south. What is the compass direction of a line connecting your starting point to your final position? Give answer as an angle in degrees counterclockwise from the east axis.
Suppose you first walk 7.5 m in a direction 20.0 west of north and then 18 m in a direction of 40.0 degrees south of west. Please help with part (c) and (d), I keep getting it wrong and I don't understand why. Part (a) How far are you from your starting point in meters? Part (b) What is the angle, in degrees, of the compass direction of a line connecting your starting point to your final position measured south of west? Part...
Suppose you walk 20 m straight west and then 22 m straight north. Answer all questions assuming the +x−+x-axis is to the right and round all answers to one decimal point. How far are you from your starting point? D= 29.7 m What is your displacement vector? Δ→x=(Δx→=( ˆx+x^+ ˆy)y^) m -20, 22 What is the direction of your displacement? θ=θ= ______ degrees relative to the +x−+x-axis.